Math (MATH): A Crypto Wallet News & Updates
Over 420 million people worldwide now use digital asset storage solutions. Most can’t name more than three platforms. MathWallet operates in this landscape—not the loudest name, but consistently present across dozens of blockchain networks.
I’ve been tracking blockchain wallet technology developments for the past few years. MathWallet keeps showing up in my research. It quietly supports more chains than most competitors without the marketing blitz.
This isn’t another “revolutionary game-changer” piece. I’m walking you through what this platform actually does. You’ll learn where it fits in today’s crowded market and what recent updates mean for users.
The MathWallet cryptocurrency platform has evolved significantly since launch. We’ll cover security developments, feature additions, and market positioning. You’ll also get real user experiences—without the press release fluff.
You might already use this multi-chain solution or just be exploring options. This guide breaks down everything worth knowing. No hype, just practical information from someone who’s actually spent time testing these platforms.
Key Takeaways
- MathWallet supports over 100 blockchain networks, offering extensive multi-chain compatibility
- Recent security updates include enhanced encryption protocols and biometric authentication features
- The platform serves both beginners and advanced users with varying interface complexity levels
- Integration with decentralized finance protocols continues expanding across supported chains
- Cross-platform availability includes mobile, browser extension, and web-based access points
- Community feedback indicates strong technical performance but mixed reviews on customer support responsiveness
Introduction to Math (MATH) Crypto Wallet
Let’s clear up a common misconception about crypto wallets. They don’t store your cryptocurrency like a physical wallet holds cash. Instead, they store the private keys that prove you own digital assets on blockchains.
I learned this distinction the hard way years back. I almost lost access to tokens because I didn’t understand what I was securing. That moment changed how I think about digital asset storage completely.
Math Wallet entered this space as a multi-chain solution. It helps manage crypto across different blockchain networks. That matters more than you might think as the decentralized finance wallet ecosystem keeps expanding.
Overview of Crypto Wallets
Crypto wallets fall into two main categories: hot wallets and cold wallets. Hot wallets stay connected to the internet, making them convenient for frequent transactions. Cold wallets remain offline, prioritizing security over convenience.
Math Wallet operates as a hot wallet. This means it’s internet-connected and accessible through your phone or browser. This design choice favors usability for interacting with decentralized applications and swapping tokens.
The multi-chain aspect sets Math Wallet apart from single-network solutions. Managing separate wallets for Ethereum, Binance Smart Chain, and Polkadot gets messy fast. I’ve juggled five different apps just to check my portfolio.
Math Wallet consolidates that chaos into one interface. You’re still dealing with multiple blockchains. But you access them through a unified point that simplifies digital asset storage across ecosystems.
Importance of Secure Wallets
Security isn’t just about protecting against hackers today. It’s about preparing for threats we’re only beginning to understand. Quantum computing represents one emerging concern that keeps security experts up at night.
Recent analysis highlights the scale of this challenge:
Bitcoin has survived 200+ government bans and restrictions, 500+ media obituaries, Mt. Gox, Terra/Luna… And now it must face its final boss… A physics problem. A math-breaking, code-shredding, reality-warping machine called a quantum computer.
That’s not science fiction anymore. Roughly 6 million BTC remain vulnerable to quantum attacks. They’re stored in old address formats that lack adequate cryptographic protection.
MATH token security and similar wallet platforms need to stay ahead of evolving threats. The cryptography protecting your private keys today might not hold up against quantum computers. Maybe in ten years, maybe five.
Traditional security risks remain immediate and real. Phishing attacks, malware, and simple human error cause more crypto losses than exotic technology threats. A secure wallet protects against current dangers while building defenses for future ones.
Features of Math Wallet
Math Wallet isn’t the flashiest option out there. But it covers substantial ground functionally. Let me break down what actually matters in day-to-day use.
The platform supports over 70 blockchain networks. That’s not just major chains—it includes emerging ecosystems other wallets haven’t integrated yet. For anyone exploring new projects or participating in multiple DeFi protocols, this breadth matters.
Key features include:
- Multi-chain support across major and emerging blockchain networks
- Built-in decentralized application browser for direct dApp interaction
- Cross-chain swapping capabilities without leaving the wallet interface
- Hardware wallet integration for users who want cold storage security
- Staking options for supported proof-of-stake networks
The interface takes a minimalist approach. Some users find it less polished than competitors like MetaMask or Trust Wallet. I actually appreciate the straightforward design—fewer animations mean faster load times and less visual clutter.
What makes Math Wallet different comes down to accessibility across chains. It combines this with MATH token security features. It bridges the gap between everyday usability and complex requirements of managing a multi-chain portfolio.
The decentralized finance wallet landscape keeps evolving. Math Wallet has adapted by regularly adding new blockchain integrations. That responsiveness to ecosystem growth signals ongoing development rather than a static product.
Key Features of Math Wallet
I’ve been using Math Wallet for about eighteen months now. Three specific features keep me from switching back to juggling multiple apps. The reality is that most wallets promise convenience but deliver complexity.
Math Wallet isn’t perfect, but it solves actual problems I face. It helps when managing digital assets across different blockchain ecosystems.
These features aren’t just bullet points on a marketing page. They represent the core of what makes this blockchain wallet technology worth the download space.
Supporting Over 100 Blockchain Networks
The multi-chain support in Math Wallet goes beyond what most people expect. We’re talking about compatibility with Ethereum, Bitcoin, Polkadot, and Cosmos. It also supports Binance Smart Chain and roughly 95+ other networks you might not recognize yet.
Before I consolidated into Math Wallet, my phone looked like a wallet graveyard. Trust Wallet for BSC transactions, MetaMask for Ethereum, Polkadot.js for DOT staking—the list went on. Each app demanded its own seed phrase, security setup, and learning curve.
The practical advantage becomes obvious when you’re actually using DeFi. Let’s say you’re yield farming on Binance Smart Chain in the morning. You check NFT portfolios on Ethereum in the afternoon and stake tokens on Cosmos by evening.
One wallet handling all three scenarios saves significant time and mental energy.
| Blockchain Category | Examples Supported | Primary Use Cases | Transaction Speed |
|---|---|---|---|
| Layer 1 Protocols | Ethereum, Bitcoin, Solana | Base layer transactions, smart contracts | Varies (15 sec – 10 min) |
| Layer 2 Solutions | Polygon, Arbitrum, Optimism | Scaled transactions, lower fees | 1-3 seconds |
| Cross-Chain Ecosystems | Polkadot, Cosmos, Avalanche | Interoperability, specialized chains | 3-6 seconds |
| Exchange Chains | Binance Smart Chain, Cronos | DeFi protocols, token swaps | 3-5 seconds |
The cross-chain compatibility eliminates the friction that kills momentum in crypto. A new DeFi opportunity appears on a network you don’t usually use. You’re not scrambling to set up a new wallet because you’re already there.
Navigating the Interface
Let me be straight about the MathWallet cryptocurrency interface—it’s not going to win design awards. If you’re coming from something sleek like Rainbow Wallet or MetaMask, Math Wallet feels cluttered. This happens at first glance.
The dashboard shows multiple networks simultaneously. At first, this feels overwhelming. You’ve got tabs for different chains, sections for DApps, and areas for token management.
But here’s what I learned after about three weeks of daily use. The density serves a purpose. Power users who manage assets across ten different chains don’t want to drill down through menus.
Math Wallet puts everything one or two taps away.
The learning curve exists, no question. I’d estimate about 20-30 minutes of exploration before the layout makes intuitive sense. You’ll click the wrong buttons and end up in settings when you meant to swap tokens.
Once you understand the logic though, the interface becomes functional rather than frustrating. The wallet organizes assets by network, not by some arbitrary alphabetical order. That actually makes more sense when you’re working within specific blockchain ecosystems.
Accessing Decentralized Applications Directly
The built-in DApp browser might be the most underrated feature in Math Wallet’s toolkit. This component of blockchain wallet technology lets you interact with decentralized applications. You don’t need to leave the wallet environment.
I’ve used this browser for everything from Uniswap trades to connecting with smaller DeFi protocols. These protocols don’t have their own mobile apps. Instead of copying wallet addresses and switching between apps, you’re operating in one continuous environment.
The browser supports Web3 connectivity across all those 100+ chains we talked about earlier. That means you’re using a popular Ethereum dApp or some experimental protocol on Avalanche. The connection methodology stays consistent.
Does it work perfectly every time? No. Sometimes Web3 connections get finicky—the signature request doesn’t pop up or the connection drops mid-transaction. I’d estimate it works smoothly about 85% of the time.
Here’s what the DApp browser enables in practical terms:
- Direct DEX access: Trade tokens on Uniswap, PancakeSwap, or SushiSwap without separate apps
- DeFi protocol interaction: Stake, farm, and lend through various platforms from one interface
- NFT marketplace browsing: Connect to OpenSea or network-specific marketplaces directly
- DAO participation: Vote on governance proposals without external wallet connections
- Cross-chain bridge access: Move assets between networks using integrated bridge protocols
The real advantage shows up when you’re deep into DeFi activities. Instead of managing multiple browser tabs, wallet extensions, and mobile apps simultaneously, you’ve got one hub. It’s not revolutionary, but it’s genuinely useful.
For someone managing cryptocurrency across multiple chains and regularly interacting with decentralized applications, these three features create legitimate utility. Multi-chain support, functional interface, and integrated DApp browser go beyond marketing promises.
Current Market Statistics for Math (MATH)
Crypto portfolio management requires hard data, not marketing hype. MATH operates as both a wallet platform and a native utility token. These are two different things to evaluate.
The wallet’s functionality doesn’t always match the token’s market performance. This trips up many newcomers.
I’ve been tracking MATH’s market metrics for a while now. The numbers tell an interesting story. This section breaks down where the token stands financially.
These statistics matter whether you’re considering holding MATH tokens or just using the wallet itself.
Market Capitalization Overview
Market capitalization gives you the big picture of MATH’s position in the crypto ecosystem. MATH typically ranks outside the top 200 cryptocurrencies by market cap. That places it firmly in the mid-tier altcoin category.
The calculation is straightforward: circulating supply multiplied by current token price equals market cap. For MATH, the circulating supply hovers around 140-150 million tokens. The maximum supply is 200 million.
That means roughly 70-75% of total tokens are already in circulation. This is actually pretty healthy distribution. Many projects keep massive reserves locked up.
Market cap reflects more than just price. It indicates relative project size and adoption level compared to competitors. A moderate market cap suggests the project has survived multiple market cycles.
I always compare market cap to the project’s actual utility. MATH Wallet supports over 70 blockchains and has millions of downloads. That usage doesn’t necessarily translate to token value.
You can use the wallet without holding MATH tokens at all. The token primarily functions for governance, staking rewards, and accessing premium features.
| Metric | MATH Token | Industry Context |
|---|---|---|
| Current Market Cap Rank | 200-250 range | Mid-tier altcoin category |
| Circulating Supply | 140-150 million tokens | 75% of max supply released |
| Maximum Supply | 200 million tokens | Fixed supply model |
| Market Cap Category | $50-100 million range | Small to mid-cap asset |
Recent Trading Volume Data
Trading volume tells you how liquid an asset actually is. This matters tremendously for MATH token security and your ability to enter or exit positions. I’ve seen MATH’s 24-hour volume fluctuate between $2 million and $15 million.
Here’s a metric I always check: the volume-to-market-cap ratio. If daily volume represents less than 1-2% of total market cap, that signals thin liquidity. MATH usually sits around 3-8% on average days.
During volatile periods or major announcements, that ratio can spike to 15-20%.
The token trades on several exchanges, which diversifies liquidity risk. Major listings include Binance, Gate.io, Huobi, and various decentralized exchanges like Uniswap and PancakeSwap. I prefer checking volume across multiple platforms.
Centralized exchange volume sometimes gets artificially inflated through wash trading.
Decentralized exchange volume matters more than people realize. MATH’s DEX trading often represents 20-30% of total volume. This shows that the token has genuine DeFi integration.
Knowing where real liquidity exists helps you execute trades without excessive slippage.
Low volume creates problems. If you hold a significant MATH position and need to sell quickly, insufficient buy orders mean trouble. Your sale pushes the price down substantially.
I experienced this during the 2022 bear market. Volume dried up, and even modest sells moved the price 3-5%.
Price Trends of Math Token
MATH’s price history follows a pattern common to most altcoins. The token launched in late 2020 around $0.20. It caught the 2021 bull run wave.
The token peaked near $3.50 in April 2021. That represents roughly a 17x gain from launch. Most altcoins did similar or better during that period.
The crash through 2022 hit MATH hard. Price dropped over 90% from the peak. It bottomed around $0.15-0.20 during the worst of the bear market.
That’s actually close to the initial launch price. This tells you something about fundamental value versus speculative premium. Recognizing these cycles prevents emotional decision-making.
Since early 2023, MATH has been consolidating in a range. I’ve watched it trade mostly between $0.30 and $0.60. Technical analysts call this an accumulation zone.
The token shows correlation with Bitcoin’s movements but with amplified volatility. It drops harder and pumps faster than BTC during trend changes.
Several factors drive MATH price beyond general market sentiment. Wallet adoption numbers, new blockchain integrations, and partnership announcements all create price reactions. Major exchange listings historically produced 20-40% pumps.
These pumps usually retrace 50-70% within days.
Here’s what most people miss: MATH token price doesn’t reflect wallet utility directly. Millions of users access Math Wallet daily without owning a single MATH token. The wallet generates value through transaction fees and partnerships.
Those revenue streams don’t necessarily flow to token holders. This disconnect creates interesting dynamics for analysts.
Volatility remains high compared to major cryptocurrencies. Daily price swings of 5-10% are common. Moves of 20%+ happen during news events or broader market volatility.
If you’re including MATH in your portfolio, position sizing matters tremendously. The risk profile differs significantly from holding Bitcoin or stablecoins.
Technical indicators show mixed signals currently. The token holds above key support levels established during the bear market. It hasn’t broken through major resistance zones that would signal a new uptrend.
Volume patterns suggest accumulation by longer-term holders rather than speculative trading. I interpret this as cautiously positive for future price stability.
Predictions for Math (MATH) Performance
I’ve watched enough crypto predictions fall flat to approach Math (MATH) forecasts with healthy skepticism. Anyone claiming absolute certainty about cryptocurrency prices hasn’t survived a full market cycle. They might be selling something.
We can examine realistic scenarios based on market fundamentals and technical indicators. Adoption metrics also play a key role. This analysis requires data, not guesswork.
Predictions for MathWallet cryptocurrency aren’t just about drawing lines on charts. They require understanding how wallet adoption translates to token utility. Broader market sentiment affects altcoins significantly.
Competitive pressures shape long-term viability. I use the same methodology analysts apply to structured projects. This means examining supply mechanics, demand drivers, and ecosystem development.
Near-Term Market Outlook
Short-term price predictions for MATH depend heavily on Bitcoin’s direction. Overall market liquidity matters too. Bitcoin’s bullish phases typically boost altcoins by 2-3x.
I’ve seen this pattern repeat across multiple cycles. Timing remains unpredictable though. Market conditions change rapidly.
Technical analysts examine support and resistance levels around key price zones. Volume patterns matter significantly here. Increased trading volume alongside positive wallet adoption could push MATH higher.
If the crypto wallet market experiences consolidation, MATH might trade sideways. Bearish sentiment can override fundamental improvements. Market psychology drives short-term moves.
Technical analysis provides useful frameworks for understanding trader psychology. It helps identify potential price zones. However, it’s not a crystal ball.
I don’t trade based solely on chart patterns. Understanding them helps with risk management in crypto portfolio management strategies. Market makers influence short-term price action unpredictably.
Some analysts point to specific price targets. I’m more interested in scenarios. Each depends on macro conditions.
Best case: Bitcoin rallies and altcoin season kicks in. MATH could see 40-60% gains. Base case: sideways movement with 10-20% fluctuations as the project builds.
Worst case: broader market correction pulls MATH down 30-40% temporarily. All three remain possible. Market conditions determine outcomes.
Extended Timeline Projections
Long-term projections shift focus from price speculation to fundamental value creation. Over two to five years, MATH’s performance depends on user growth. Multi-chain solutions must remain relevant.
I see three critical factors determining MathWallet cryptocurrency value long-term. First, sustained user adoption increases token utility substantially. If Math Wallet reaches 5-10 million active users, demand grows.
Second, successful integration with emerging blockchain networks keeps the platform competitive. Third, unique features that competitors can’t replicate create defensible market position. Innovation matters.
The competitive landscape matters enormously here. Trust Wallet, MetaMask, and other players constantly improve their offerings. Superior multi-chain support could differentiate Math Wallet.
If it becomes just another option, growth stalls. Differentiation creates lasting value. Generic offerings struggle in crowded markets.
There’s also the question of whether users will need separate wallet applications. Exchanges and blockchain platforms might integrate wallet functionality directly. This technological shift could enhance or diminish Math Wallet’s value proposition.
Key Drivers and Market Forces
Factors influencing predictions matter more than the predictions themselves. I’ve learned to watch what actually moves markets. For MATH, several concrete drivers deserve attention.
User adoption metrics provide the clearest signal. When wallet downloads increase, active addresses multiply. Transaction volume growth typically boosts token demand.
Partnership announcements with major blockchain projects create positive momentum. I pay attention to whether partnerships translate into actual integration. Press releases alone don’t drive value.
Broader crypto market sentiment acts as a tide lifting or sinking most boats. Even projects with excellent fundamentals struggle during bear markets. Mediocre ones can surge during bull runs.
Understanding this relationship helps set realistic expectations for crypto portfolio management decisions. Market cycles affect all tokens. Timing matters.
Regulatory developments present both risk and opportunity. Clear regulations in major markets could legitimize wallet platforms. This would drive institutional adoption.
Restrictive policies could limit growth potential. I monitor regulatory news for understanding the long-term operating environment. Day-trading signals aren’t my focus.
Competition and technological innovation create constant pressure. New wallet solutions with better features quickly capture market share. Security incidents significantly impact trust and adoption patterns.
The team’s ability to deliver roadmap promises matters tremendously. I’ve seen more projects fail from execution problems than market conditions. Delivery builds credibility.
| Prediction Factor | Impact Level | Timeframe Effect | Measurability |
|---|---|---|---|
| User Adoption Growth | High | Both short and long-term | Directly trackable through on-chain metrics |
| Bitcoin Market Cycles | Very High | Primarily short-term | Easily monitored via price correlation |
| Feature Development | Medium | Long-term accumulation | Observable through release schedules |
| Competitive Positioning | High | Long-term sustainability | Comparative analysis required |
| Regulatory Environment | Medium to High | Long-term structural | Policy announcements and enforcement |
The prediction methodology used in analyzing structured presales doesn’t directly transfer to established projects. Clear tokenomics and development stages create somewhat predictable paths. However, the underlying principle remains valid.
Analyze supply mechanics and demand drivers rather than chasing price patterns. Analysts examining presales during uncertain market periods note structured approaches outperform speculation. That same discipline applies here.
My personal approach involves watching whether Math Wallet delivers tangible improvements. I don’t obsess over daily price movements. Strong fundamentals don’t guarantee short-term gains.
They dramatically improve the probability of long-term success. That’s the closest thing to a reliable prediction I can offer. Focus on what the project actually builds.
Tools for Math (MATH) Users
Every serious crypto user eventually realizes that digital asset storage involves an entire ecosystem of tools beyond the wallet itself. Math Wallet gives you the basics, but the real magic happens when you understand the full toolkit available. I’ve spent years testing different combinations of wallet features, analytics platforms, and security measures to find what actually works.
The difference between struggling with crypto and managing it smoothly often comes down to knowing which tools exist. Some features are built directly into Math Wallet. Others require connecting external platforms that specialize in specific functions.
Managing Your Wallet Like a Pro
Math Wallet includes several features that make crypto portfolio management significantly easier once you learn where they are. The wallet supports multiple addresses across different blockchain networks, which sounds basic until you’re juggling holdings on Ethereum, BSC, Polygon, and Solana simultaneously. Switching between networks takes one tap—I do this constantly throughout the day.
The custom token addition feature deserves special mention because not every token appears automatically in your wallet interface. You’ll need to manually add contract addresses for newer or less popular tokens. I keep a note file with frequently used contract addresses because typing them on mobile gets tedious.
The address book functionality saves considerable time and reduces error risk when sending crypto regularly to the same addresses. Label your frequent recipients instead of copy-pasting addresses from chat apps every time. Transaction history tracking within Math Wallet shows your complete activity per network.
Hardware wallet integration represents perhaps the most important feature for serious holders. Math Wallet connects with Ledger devices, adding a crucial security layer I strongly recommend for anyone holding significant value. Your private keys never leave the hardware device, even while the Math Wallet interface manages the user experience side.
The interface also lets you hide small balance tokens—those random airdrops that clutter your view—and rename accounts for better organization. Watch-only addresses let you monitor wallets you don’t control. I use this for tracking smart contract balances and monitoring cold storage without exposing those wallets to online risk.
Analytics and Performance Tracking
Math Wallet shows basic portfolio values, but serious crypto portfolio management requires connecting to specialized analytics platforms. The built-in analytics are honestly pretty limited—you’ll see token balances and rough USD values. Most users eventually need detailed performance metrics.
External platforms like Zapper, DeBank, and Zerion aggregate holdings across all your DeFi positions. These tools show historical performance, calculate yield farming returns, identify liquidity pool opportunities, and track your complete DeFi footprint. I use these platforms daily because they solve the fundamental problem of fragmented information.
Your assets might be spread across lending protocols, liquidity pools, staking contracts, and regular wallet holdings. Manually tracking everything becomes impossible once you’re active in DeFi.
| Analytics Platform | Key Strengths | Best Use Case | Integration Method |
|---|---|---|---|
| Zapper | DeFi position tracking, opportunity identification | Active DeFi users managing multiple protocols | Connect wallet address |
| DeBank | Portfolio valuation, social features, protocol analytics | Comprehensive cross-chain portfolio view | Enter wallet address |
| Zerion | Historical performance, mobile app, transaction history | Long-term holders tracking performance metrics | Wallet connection or address |
| Math Wallet Built-in | Quick balance checks, immediate access | Basic holdings overview without external tools | Native functionality |
The tracking tools also help with tax reporting by exporting transaction histories in formats compatible with crypto tax software. This becomes essential come tax season when you’re trying to reconstruct months of trading activity.
Protecting Your Assets with Security Tools
Security tools represent the most critical aspect of digital asset storage, yet many users treat them as optional features. Math Wallet includes biometric authentication (fingerprint or face ID), PIN codes, and seed phrase backup as standard security measures. These basics matter, but comprehensive security goes much deeper.
I recommend implementing address whitelisting for withdrawals if you regularly send to the same addresses. This prevents unauthorized transfers to unknown addresses even if someone compromises your device temporarily. Enable transaction confirmations that require you to review and approve every action before it executes.
Regularly auditing connected DApps is essential because malicious smart contracts can drain wallets through permissions you granted weeks ago. Math Wallet lets you view and revoke these permissions, which I do monthly as standard maintenance. Old DeFi protocols you no longer use shouldn’t retain access to your funds.
The wallet’s built-in security scanner checks contracts against known scam databases before you sign transactions. It’s not foolproof—new scams appear constantly—but it catches common threats. I’ve had it warn me about suspicious contracts several times, saving me from expensive mistakes.
Blockchain wallet technology continues evolving with new security features, but the basics remain constant: never share your seed phrase. Enable all available authentication methods, use hardware wallets for large holdings, and maintain healthy skepticism about any transaction you don’t fully understand. These tools work only when you actually use them consistently.
Multi-signature wallets represent an advanced security option where multiple approvals are required for transactions. Math Wallet supports these through certain chains. This adds another protection layer for shared accounts or business holdings where no single person should have complete control.
Frequently Asked Questions (FAQs)
Let me tackle the most common questions about Math Wallet. I see these repeatedly in every crypto community I’m part of. These aren’t theoretical questions pulled from thin air.
They’re real concerns from actual users. People are trying to navigate the MathWallet cryptocurrency ecosystem. These questions matter because they affect your daily crypto experience.
What is Math Wallet?
Here’s where confusion starts for most people. Math Wallet is both a cryptocurrency wallet application and a blockchain ecosystem. It has its own MATH token, and that dual identity trips people up constantly.
The wallet itself is a multi-chain, multi-platform solution. You can use it on iOS or Android devices. It also works as a browser extension or through a web interface.
Eric Yu and the Math Global team developed it around 2017-2018. Back then, multi-chain support wasn’t standard practice. They were ahead of their time with this approach.
The numbers are impressive and worth noting. Math Wallet currently supports over 100 blockchains. It provides access to more than 3,000 DApps.
That’s a massive range compared to single-chain alternatives. Most wallets only support one or two blockchains. Math Wallet gives you far more options.
The MATH token serves as the ecosystem’s utility token. You can use it for governance voting and staking rewards. It also unlocks access to premium features.
But here’s what matters most: you don’t need to own MATH tokens to use Math Wallet. The wallet functions perfectly fine without holding any MATH. That’s an important distinction many users miss.
How to Use Math Wallet?
Setting up a crypto wallet seems straightforward until you’re actually doing it. Let me walk through the process I followed. This will save you time and potential mistakes.
First, download the app from official sources only. Scam versions exist in the wild, designed specifically to steal your crypto. Check the official Math Wallet website for legitimate download links.
Once installed, you’ll choose between creating a new wallet or importing an existing one. For new wallets, the system generates a recovery phrase. This phrase contains 12 or 24 words.
This is critical—write these words on paper, not digitally. I keep mine in a fireproof safe. Never store them on your phone or computer.
Here’s the uncomfortable truth about recovery phrases. If you lose this phrase and your phone, your crypto is gone forever. No customer service can recover it.
That’s the trade-off with non-custodial wallets. You control everything, which means you’re responsible for everything. There’s no safety net or password reset option.
After setup, using the wallet involves these basic steps:
- Select which blockchain network you want to interact with from the supported list
- Receive tokens by copying your address from the receive tab
- Send tokens by pasting the recipient address and entering the amount
- Connect to DApps through the built-in browser tab
- Monitor your portfolio across multiple chains in one interface
The interface takes getting used to if you’re new to multi-chain wallets. I spent about a week clicking around before everything felt intuitive. Don’t rush the learning process.
Is Math Wallet Safe and Secure?
This is the million-dollar question, and it deserves a nuanced answer. Math Wallet is non-custodial, meaning you control your private keys. That’s fundamentally more secure than custodial exchanges.
The code has undergone security audits from independent firms. However, I need to be honest about something important. No wallet is ever 100% safe.
Vulnerabilities exist in every system, and new threats emerge constantly. The crypto landscape changes fast. What’s secure today might be vulnerable tomorrow.
The quantum computing threat I mentioned earlier applies to all cryptocurrency wallets. It’s not just Math Wallet facing this challenge. According to recent security research:
Roughly 6 million BTC are quantum-vulnerable right now… These coins are quantum low-hanging fruit. For a quantum thief, that’s a $100-$200 billion jackpot sitting in the open.
That vulnerability extends across the entire crypto ecosystem. Math Wallet isn’t uniquely vulnerable to quantum threats. But it isn’t immune either.
MATH token security faces the same quantum threats as Bitcoin and Ethereum. Every blockchain using current encryption methods shares this risk. It’s an industry-wide challenge, not a Math Wallet problem.
Here’s what actually determines security: your behavior. If you save your seed phrase in Evernote, you’re asking for trouble. Falling for phishing scams or connecting to sketchy DApps creates vulnerabilities.
No wallet security features can protect you from your own mistakes. I’ve seen people lose everything because they clicked the wrong link. Human error causes most crypto losses, not technical failures.
Math Wallet provides the tools for security. Two-factor authentication, biometric locks, and encrypted storage are all available. But the human element remains the weakest link in any security system.
Evidence of Math (MATH)’s Growing Popularity
I always separate verifiable evidence from promotional noise when looking at Math Wallet’s growth. Marketing departments love impressive-sounding numbers, but real adoption leaves traces you can verify. I’ve dug through blockchain explorers, app store data, and partnership announcements to see where Math Wallet stands.
The difference between claimed users and active users matters tremendously in this space. Anyone can download an app, but consistent usage tells the real story. Active use shows whether blockchain wallet technology delivers value to users.
User Adoption Trends
Math Wallet reports millions of downloads across iOS and Android platforms. Pinning down exact active user counts proves difficult with non-custodial wallets. The wallet doesn’t require registration, which protects privacy but makes precise user tracking nearly impossible.
On-chain data provides better insights than download claims. I look at addresses interacting with MATH token contracts and wallet-related smart contracts. This data sits publicly on blockchain explorers and shows actual usage rather than hypothetical users.
The numbers reveal that Math Wallet experienced significant growth during the 2020-2021 bull market. This pattern matched most decentralized finance wallet applications during that period.
App store rankings provide another verification point. In Southeast Asian markets, Math Wallet typically appears in the top 50-100 finance apps. However, in Western markets like the United States, the wallet ranks lower than MetaMask and Trust Wallet.
The growth pattern follows predictable crypto market cycles. Adoption surged during bull markets and plateaued during bear periods like 2022-2023. This pattern characterizes the entire crypto application ecosystem.
Partnerships and Collaborations
Real partnerships tell you which projects take a wallet seriously. Math Wallet has established integrations with major blockchain networks including Polkadot, Cosmos, Binance Smart Chain. These aren’t just marketing announcements—they involve actual technical integration work.
Both development teams collaborate on compatibility testing and user experience optimization for each blockchain. I pay attention to whether partnerships involve genuine technical depth or simply represent logo exchanges. Math Wallet’s integrations generally fall into the substantive category with working functionality.
The wallet has also partnered with DeFi protocols, NFT platforms, and infrastructure providers. These collaborations expand the utility beyond simple token storage. For blockchain wallet technology to remain relevant, it needs to integrate with the broader ecosystem.
The focus on Asian and emerging market partnerships stands out to me. While Western wallets prioritize Ethereum ecosystem integration, Math Wallet has built stronger connections with Asian chains. This gives it a strategic advantage in those regions.
Community Engagement Metrics
Social media numbers and GitHub activity provide concrete evidence of community strength. Math Wallet maintains active Telegram channels with thousands of members and regular Twitter updates. These channels show consistent activity rather than sporadic bursts followed by silence.
I always check GitHub repositories when evaluating any decentralized finance wallet project. Abandoned projects stop committing code, while active ones show regular updates. Math Wallet’s GitHub demonstrates ongoing development activity, though not at the pace of larger competitors.
The community shows particular strength in Asian markets, especially China and Southeast Asia. This geographic concentration makes sense given the team’s origins and partnership focus. Telegram groups in those regions remain significantly more active than English-language channels.
Response rates to user questions offer another quality signal. Math Wallet’s support team responds to technical questions within reasonable timeframes. Complex issues typically get answers within 24-48 hours.
| Popularity Indicator | Evidence Source | Current Status | Market Position |
|---|---|---|---|
| Download Numbers | App Store Data | Millions claimed across platforms | Top 50-100 in Asian markets |
| On-Chain Activity | Blockchain Explorers | Verifiable contract interactions | Moderate growth aligned with market cycles |
| Blockchain Partnerships | Official Announcements | 50+ chain integrations | Strong in Asian-focused networks |
| Community Engagement | Social Media & GitHub | Active regional communities | Strongest presence in Southeast Asia |
The evidence suggests Math Wallet occupies a solid middle-tier position in the wallet ecosystem. It’s not dominating global markets like MetaMask, but it’s far from irrelevant. The wallet has carved out regional strength and technical breadth that differentiates it from pure marketing plays.
Recent News and Updates
Math Wallet has rolled out several significant updates over the past few months. These updates address real pain points that users have experienced. The decentralized finance wallet landscape changes fast, and platforms must innovate to stay relevant.
Math Wallet’s development team understands this urgency. They push improvements that matter to actual users. The focus is on practical functionality rather than trendy features nobody uses.
New Features Announced
The biggest improvement is the enhanced cross-chain swap functionality. You can now exchange tokens across different blockchains without leaving the wallet. This eliminates the tedious process of using separate exchange platforms.
Math Wallet integrated with several cross-chain bridges and DEX aggregators. The technology behind this is still maturing, but it works surprisingly well. Swaps between Ethereum and BNB Chain take about three minutes from start to finish.
The NFT support improvements are noteworthy. The wallet now features better gallery views and direct integration with major NFT marketplaces. You can browse your collection, view metadata, and list items for sale without switching apps.
Math Wallet expanded from around 80 supported chains to over 100 networks. That includes newer Layer 1 blockchains and Layer 2 scaling solutions. Users no longer need five different wallets to access emerging platforms.
Security enhancements represent another major focus area. The wallet now includes improved transaction simulation, showing exactly what a transaction will do before you sign. This feature alone could prevent countless scams.
Integration with security analysis tools adds another protection layer. Before you interact with an unfamiliar contract, the wallet scans for known vulnerabilities. It significantly reduces risk for average users who can’t read Solidity code.
Partnerships and Integrations
Recent partnerships reveal where the Math Wallet team thinks crypto is heading. They’ve focused heavily on Layer 2 scaling solutions. Native support for Arbitrum, Optimism, and zkSync has been added.
The strategic timing is interesting. Math Wallet waited until the technology stabilized and user adoption reached meaningful levels. That’s smart positioning for a decentralized finance wallet balancing innovation with reliability.
The GameFi and metaverse partnerships represent another bet on crypto’s future direction. Math Wallet integrated with several blockchain gaming projects. The wallet handles all subsequent transactions with minimal friction once you connect.
Decentralized identity integration deserves mention too. Users can now create and manage Web3 identities directly through the wallet. The integration works smoothly for those who want it.
These partnerships signal ecosystem positioning. Math Wallet isn’t just building a token storage app. They’re creating infrastructure for the next phase of crypto adoption.
Regulatory News Impacting Math Wallet
The regulatory landscape for non-custodial wallets is getting complicated. Platforms like Math Wallet face less pressure than centralized exchanges. However, they’re not immune to government scrutiny.
The main issue revolves around KYC requirements and transaction monitoring. Some regulators want wallet providers to collect user information, even if the wallet is non-custodial. This creates a philosophical and technical problem.
Math Wallet doesn’t collect personal data—that’s core to its design. Implementing KYC would require rebuilding the entire system. So far, Math Wallet has maintained its non-custodial structure.
The European Union’s Markets in Crypto-Assets regulation and various U.S. proposals could force changes. MATH token security and wallet operations might need to adapt if regulations require tracking user transactions. Nobody knows exactly how this will play out.
Different countries imposing different rules could force wallet providers to offer region-specific versions. That breaks the permissionless nature of crypto that attracted many users. The next year could determine whether decentralized wallets can maintain their core principles.
Comparison of Math Wallet with Competitors
No wallet exists in isolation. Understanding how Math Wallet measures up can save you time and headaches. The crypto wallet market has dozens of options.
The comparison isn’t about declaring a winner. It’s about matching features to your specific use case. Your needs differ based on which blockchains you use.
Let’s look at how Math Wallet stacks up against two major competitors.
Trust Wallet vs. Math Wallet
Trust Wallet has become a household name in crypto circles. Binance acquired it in 2018. That backing gave it instant credibility and marketing power.
The interface feels like a consumer product designed for mainstream adoption. Everything is intuitive, from setup to managing complex transactions. Trust Wallet supports around 65+ blockchains.
Math Wallet takes a different approach. It supports over 100 blockchains. This includes smaller networks and Asian-market chains that Trust Wallet ignores.
This broader multi-chain support comes at a slight cost. The interface feels more technical and less refined.
The best crypto wallet isn’t the one with the most features—it’s the one that supports the specific chains you actually use.
Trust Wallet integrates tightly with the Binance ecosystem. If you trade on Binance, the synergy is valuable. Math Wallet maintains more independence from any single exchange.
Both are non-custodial, meaning you control your private keys. Both are free to use with no hidden subscription fees. The real difference comes down to which blockchains you need.
For digital asset storage across major chains, Trust Wallet delivers a smoother experience. For obscure chains or Asian market networks, Math Wallet fills important gaps.
MetaMask vs. Math Wallet
MetaMask is the dominant force in Ethereum-focused wallets. It pioneered the browser extension wallet format. Most tutorials assume you’re using MetaMask.
The browser extension is robust, mature, and trusted by millions. The mobile app has improved significantly. It still feels secondary to the desktop experience.
MetaMask excels at EVM-compatible chains but doesn’t natively support non-EVM networks. You can’t manage Bitcoin, Polkadot, or Cosmos assets without workarounds.
Math Wallet was built as a multi-chain support solution. It handles both EVM and non-EVM chains natively. This eliminates the need for multiple wallet applications.
| Feature | Math Wallet | MetaMask | Trust Wallet |
|---|---|---|---|
| Supported Blockchains | 100+ chains | EVM chains only | 65+ chains |
| Non-EVM Support | Yes (native) | No | Yes (limited) |
| Primary Platform | Mobile-first | Browser extension | Mobile app |
| Open Source | Yes | Yes | Partially |
| Hardware Wallet Support | Yes | Yes | Limited |
MetaMask’s strength is its deep integration into Ethereum culture. Every DApp tutorial assumes MetaMask compatibility. That network effect is powerful.
Math Wallet serves users who need a crypto wallet beyond the Ethereum ecosystem. For diverse portfolios, Math Wallet provides coverage that MetaMask can’t match.
What Makes Math Wallet Different
After using multiple wallets for years, I’ve identified specific advantages. These aren’t necessarily deal-breakers. They matter in certain situations.
Comprehensive blockchain coverage tops the list. Supporting 100+ blockchains means you can manage obscure altcoins. This is valuable if you participate in new blockchain ecosystems.
The built-in cross-chain swap functionality deserves mention. Other wallets require you to use external DEXs for swaps. Math Wallet integrates this directly.
- Hardware wallet integration: Math Wallet supports Ledger and other hardware wallets, adding an extra security layer for high-value holdings
- Open-source code: You can verify exactly what the wallet does, which builds trust for security-conscious users
- No forced token holdings: You don’t need MATH tokens to access basic features, unlike some wallets that push their native tokens
- Asian market strength: Strong presence in Asian markets with support for region-specific blockchains often ignored by Western competitors
These advantages come with trade-offs. The user base is smaller. This means less community support and fewer tutorials.
The interface lacks the polish of Trust Wallet or MetaMask. Brand recognition in Western markets remains weak. Development pace sometimes feels slower compared to MetaMask’s rapid iteration.
For digital asset storage needs that span multiple blockchain ecosystems, Math Wallet fills a specific niche. It’s not trying to be the most beautiful wallet. It’s trying to be the most comprehensive.
That mission resonates with certain users. Those managing diverse portfolios or participating in emerging blockchain projects value breadth over polish. If that describes your situation, Math Wallet deserves serious consideration.
User Testimonials and Reviews
I’ve spent time reviewing what actual Math Wallet users say about their experiences. The patterns are revealing. Marketing materials only tell part of the story—real feedback provides much more valuable insights.
The MathWallet cryptocurrency community has grown vocal about both strengths and weaknesses. This gives us a balanced perspective on what works. It also shows what doesn’t.
User testimonials come from various sources including app store reviews and Reddit discussions. They also come from crypto forums and social media platforms. These reviews span different user types, from beginners to experienced traders.
What Users Love About the Platform
The most consistent praise centers on multi-chain support. Users managing diverse portfolios appreciate having one unified interface. This beats juggling separate wallet applications.
This becomes especially valuable across five, ten, or fifteen different blockchains. Crypto portfolio management gets significantly easier with Math Wallet’s comprehensive chain coverage.
Several reviews specifically mention support for smaller blockchain projects. Mainstream wallets ignore networks like VeChain, Harmony, and Polkadot. Asian market users particularly value this breadth of coverage.
The built-in DApp browser receives positive feedback from DeFi enthusiasts. You can interact with protocols across multiple chains without leaving the wallet. This saves time and reduces friction.
One user described it as “having a Swiss Army knife for crypto.” This beats carrying separate tools for each blockchain.
Hardware wallet integration earns respect from security-conscious users. You can connect Ledger or Trezor devices and use Math Wallet as the interface. Private keys stay safely offline.
This combination of convenience and security appeals to users holding significant value.
The open-source codebase builds trust among technically-minded users. They can review the code themselves. Several developers have praised the transparency.
They feel more comfortable with MATH token security when they can verify the implementation personally.
Advanced users appreciate features that other wallets restrict or hide. Custom RPC endpoints, manual gas settings, and direct contract interaction tools give experienced users control. As one power user wrote: “Finally a wallet that doesn’t treat me like I need training wheels.”
Common Complaints and Pain Points
The interface draws the most frequent criticism. Users describe it as cluttered and confusing for beginners. It’s less intuitive than competitors like Trust Wallet or MetaMask.
Important features sometimes hide in non-obvious menu locations. This creates frustration during the learning phase.
Performance issues surface periodically, especially on lower-end Android devices. Some users report lag, occasional crashes, or slow loading times. These technical hiccups disrupt the user experience.
Customer support remains a persistent pain point. As a non-custodial wallet, Math Wallet doesn’t offer traditional customer service channels. Users encountering problems often struggle to find help.
The community forums provide some support. However, response times vary considerably.
Confusion about the MATH token itself appears regularly in reviews. Many users don’t understand whether they need to hold the token. They also don’t know what benefits it provides.
This lack of clarity creates unnecessary uncertainty.
Update timing occasionally lags behind network changes. Several users noted Math Wallet took weeks or months to implement certain blockchain upgrades. Competitors supported these immediately.
For users actively trading or participating in new protocol launches, these delays create real problems.
MATH token security concerns pop up occasionally. Most relate to user error rather than wallet vulnerabilities. Lost seed phrases, phishing scams, and compromised devices account for the majority of security incidents.
The wallet itself hasn’t suffered major breaches. However, user education remains a challenge.
Real-World Usage Scenarios
Looking at specific case studies shows how different users employ Math Wallet. A DeFi yield farmer manages positions across Ethereum, Binance Smart Chain, Polygon, and Fantom simultaneously. Using Math Wallet eliminates the need to switch between applications.
This approach reduces error risk and saves substantial time during position adjustments.
This farmer specifically values the unified transaction history and portfolio overview. Instead of checking four separate wallets to calculate total value, everything appears in one dashboard. The crypto portfolio management efficiency gains become significant during daily rebalancing.
An NFT collector primarily uses MetaMask for Ethereum-based collections. They added Math Wallet for NFTs on Flow and Tezos. These chains weren’t supported by the collector’s main wallet.
Math Wallet filled this specific gap without requiring a complete wallet switch.
A long-term investor holds positions across more than fifteen different blockchain networks. This user connected Math Wallet to a Ledger hardware device. They maintain maximum security while gaining convenient mobile portfolio monitoring.
The combination addresses both security requirements and practical usability needs.
These case studies demonstrate Math Wallet’s strength in niche scenarios where multi-chain support exceeds mainstream options. Users with simple needs might find other wallets more streamlined. However, those managing complex multi-chain portfolios consistently praise MathWallet cryptocurrency’s comprehensive coverage.
| Feedback Category | Positive Aspects | Negative Aspects | User Priority Level |
|---|---|---|---|
| Multi-Chain Support | Comprehensive coverage of 100+ blockchains, includes smaller networks | Can feel overwhelming for beginners with simple needs | High for diverse portfolios |
| User Interface | Feature-rich with advanced tools for power users | Cluttered design, steep learning curve, buried features | Medium but frequently mentioned |
| Security Features | Hardware wallet integration, open-source code, non-custodial design | User education gaps, phishing vulnerability, support limitations | Critical for all users |
| Performance | Handles multiple chains simultaneously, built-in DApp browser | Occasional lag on older devices, slow loading with many chains | Medium for most users |
| Customer Support | Active community forums, extensive documentation available | No direct support channels, slow response times, limited help options | Low until problems arise |
The table above summarizes patterns from hundreds of user reviews across multiple platforms. Notice how strengths and weaknesses often represent two sides of the same feature. Comprehensive multi-chain support creates power but also complexity.
User satisfaction correlates strongly with use case alignment. People needing extensive multi-chain crypto portfolio management report high satisfaction despite interface complaints. Users wanting simple, streamlined experiences often switch to more focused alternatives.
The testimonials reveal an important truth: Math Wallet serves specific user segments exceptionally well. It struggles to appeal to mainstream crypto holders. Understanding where you fall on that spectrum helps determine whether this wallet matches your needs.
Conclusion: The Future of Math (MATH) Wallet
Math Wallet carved out a strong position in the crowded wallet space. It won’t dominate like MetaMask, but it doesn’t need to. The platform serves users who value extensive blockchain support over mainstream polish.
Core Strengths and Market Position
This decentralized finance wallet excels at multi-chain management. The non-custodial design gives you full control over your assets. Built-in DApp browsing and hardware wallet integration create a comprehensive toolkit.
The interface feels less refined than competitors. That’s the tradeoff for supporting 100+ blockchains. Users who need that breadth accept the learning curve.
Realistic Potential Assessment
MATH token security follows industry standards. The team maintains active development and responds to emerging threats.
Long-term success depends on maintaining technical edges while improving user experience. Strategic partnerships with new blockchain networks could drive adoption. The token price will likely follow broader market trends.
Practical Next Steps
If you manage assets across multiple chains, test Math Wallet with small amounts first. See whether convenience outweighs any interface quirks.
Investors should research current tokenomics and market conditions. This isn’t financial advice—a crypto wallet investment carries real risk.
Your security remains your responsibility. No wallet protects you from poor decisions. Stay informed, practice caution, and keep learning as the space evolves.
Frequently Asked Questions (FAQs)
What is Math Wallet?
How do I set up and use Math Wallet?
Is Math Wallet safe and secure?
What blockchains does Math Wallet support?
Do I need to hold MATH tokens to use Math Wallet?
How does Math Wallet compare to MetaMask and Trust Wallet?
Can I use Math Wallet with a hardware wallet like Ledger?
What are the main security risks when using Math Wallet?
How do I recover my Math Wallet if I lose my device?
What fees does Math Wallet charge?
Frequently Asked Questions (FAQs)
What is Math Wallet?
Math Wallet is both a multi-chain cryptocurrency wallet and a blockchain ecosystem with its own MATH token. The wallet is a non-custodial solution available on iOS, Android, browser extension, and web interface. Eric Yu and the Math Global team developed it around 2017-2018.
It supports over 100 blockchains and over 3,000 DApps. This makes it one of the most comprehensive multi-chain wallets available. Here’s what’s important: you don’t need to own MATH tokens to use the wallet.
The MATH token serves as the ecosystem’s utility token for governance, staking, and accessing premium features. Basic wallet functionality is completely free and doesn’t require token holdings. The wallet provides a single interface for managing digital assets across multiple blockchain networks.
Supported networks include Ethereum, Bitcoin, Polkadot, Cosmos, Binance Smart Chain, and dozens of smaller networks.
How do I set up and use Math Wallet?
Setting up Math Wallet is straightforward, but you need to follow careful security steps. First, download the app only from official sources—the Apple App Store, Google Play Store, or official website. Scam versions exist, so verify you’re getting the legitimate app.
Once downloaded, choose “Create New Wallet” and you’ll generate a 12 or 24-word recovery phrase. Write this down on paper—not digitally—and store it somewhere safe like a fireproof safe. If you lose this phrase and your phone, your crypto is gone forever.
No customer service can recover it. That’s the fundamental trade-off with non-custodial wallets. After securing your seed phrase, set up biometric authentication and a PIN code for daily access.
To use the wallet, select which blockchain network you want to interact with from the network list. Copy your receiving address from the “Receive” tab when you want to deposit crypto. To send tokens, paste the recipient address, enter the amount, and confirm the transaction.
The built-in DApp browser lets you connect to decentralized applications directly. The interface takes about 20 minutes to understand if you’re new to multi-chain wallets. It becomes intuitive once you’ve clicked around.
Is Math Wallet safe and secure?
Math Wallet is fundamentally secure because it’s non-custodial, meaning you control your private keys. This is inherently more secure than keeping crypto on custodial exchanges. The wallet’s code has been audited, and it includes standard security features.
However, no wallet is ever 100% safe. The biggest security risk isn’t the wallet itself but user behavior. If you save your seed phrase digitally or fall for phishing scams, no security features can save you.
Math Wallet includes helpful tools like transaction simulation and smart contract scanning against known scam databases. There’s also the broader quantum computing threat that affects all cryptocurrency wallets. Roughly 6 million BTC are potentially vulnerable to future quantum attacks because of old address formats.
Math Wallet’s security ultimately depends on both the wallet’s technology and your own security practices. Use strong passwords, never share your seed phrase, and verify addresses before sending. Be cautious about which DApps you connect to.
What blockchains does Math Wallet support?
Math Wallet supports over 100 blockchains, which is significantly more than most competing wallets. Major supported networks include Ethereum, Bitcoin, Binance Smart Chain, Polkadot, and Cosmos. It also supports Polygon, Avalanche, Fantom, Solana, and numerous Layer 2 solutions like Arbitrum and Optimism.
The wallet also supports many smaller and region-specific blockchains, particularly those popular in Asian markets. This comprehensive coverage is Math Wallet’s primary value proposition. You can manage a diverse crypto portfolio from one interface instead of juggling separate wallet apps.
The wallet handles both EVM-compatible chains and non-EVM chains like Bitcoin, Polkadot, and Cosmos. This sets it apart from Ethereum-focused wallets like MetaMask. Math Wallet regularly adds support for new blockchain networks.
The wallet expanded from around 80 supported chains to over 100 in recent years. You simply select your network from the list, and the wallet switches to show your assets. It also displays your transaction history on that specific blockchain.
Do I need to hold MATH tokens to use Math Wallet?
No, you absolutely do not need to hold MATH tokens to use Math Wallet. The wallet application is completely free to download and use, with no mandatory token holdings. MATH is the ecosystem’s utility token, which serves functions like governance and staking for rewards.
However, all basic wallet functionality works perfectly without owning a single MATH token. This includes storing assets, sending and receiving crypto, connecting to DApps, and managing multiple chains. The only costs you’ll encounter are standard blockchain transaction fees that go to network validators.
These fees exist on every blockchain regardless of which wallet you use. Some advanced features might offer bonuses or discounts to MATH token holders. The separation between the wallet application and the MATH token is actually a strength.
It means the wallet’s utility isn’t dependent on token price. Users aren’t forced into token exposure they might not want.
How does Math Wallet compare to MetaMask and Trust Wallet?
Each wallet serves somewhat different niches. MetaMask is the dominant Ethereum-focused wallet with excellent support for EVM-compatible chains. It’s deeply integrated into Ethereum culture and has robust browser extension support.
However, MetaMask doesn’t natively support non-EVM chains like Bitcoin, Polkadot, or Cosmos—Math Wallet does. Trust Wallet, acquired by Binance, has significantly larger brand recognition and user base, particularly in Western markets. It supports around 65+ blockchains compared to Math Wallet’s 100+.
Trust Wallet’s interface is generally more polished and intuitive. Trust Wallet feels like a consumer product, while Math Wallet sometimes feels more like a developer tool. Math Wallet’s advantages are broader blockchain coverage, especially for smaller or Asian-market chains.
It also has open-source code that can be independently verified and built-in cross-chain swap functionality. Trust Wallet has better Binance ecosystem integration, while Math Wallet maintains more independence. If you’re primarily using major chains, Trust Wallet or MetaMask probably offers a smoother experience.
If you need support for obscure chains or prefer comprehensive multi-chain support, Math Wallet might fit better. Many users have all three depending on what they’re doing.
Can I use Math Wallet with a hardware wallet like Ledger?
Yes, Math Wallet supports hardware wallet integration with devices like Ledger and Trezor. This is a security feature strongly recommended for larger crypto holdings. This setup gives you the best of both worlds.
You get the convenience of Math Wallet’s multi-chain interface combined with the security of offline private key storage. Your private keys never leave the hardware device. Math Wallet acts as the interface for viewing balances and constructing transactions.
The actual transaction signing happens on the hardware wallet itself. You’ll need to confirm each transaction by physically pressing buttons on your device. Setting this up requires connecting your hardware wallet to your computer or phone.
Then import accounts into Math Wallet using the hardware wallet option rather than creating a new software wallet. The process is a bit more technical than using Math Wallet alone, but it significantly increases security. Even if your phone or computer is compromised, attackers can’t access your funds without physical possession.
This configuration is particularly valuable for long-term holdings. It still allows you to interact with DApps and manage multiple chains through Math Wallet’s interface.
What are the main security risks when using Math Wallet?
The security risks with Math Wallet are similar to those with any non-custodial cryptocurrency wallet. Most stem from user error rather than wallet vulnerabilities. The biggest risk is losing your seed phrase.
If your phone is lost, stolen, or damaged and you don’t have your recovery phrase backed up, your crypto is permanently inaccessible. Write your seed phrase on paper and store it securely. Never save it digitally or take screenshots.
Phishing scams are another major threat. Attackers create fake websites or apps that look like Math Wallet and trick you into entering your seed phrase. Always verify you’re using the official Math Wallet app or website.
Malicious smart contracts pose significant risk, especially when using the DApp browser. Some contracts are designed to drain your wallet when you approve them. Math Wallet includes transaction simulation and contract scanning features to help identify suspicious contracts.
Always research DApps before connecting your wallet. Be extremely cautious about signing approval transactions that give contracts permission to spend your tokens. Address mistakes—sending crypto to the wrong address or wrong network—result in permanent loss.
Double-check addresses and network selection before confirming transactions. Finally, there’s the broader quantum computing threat that could eventually compromise the cryptography protecting all cryptocurrency wallets. Roughly 6 million BTC are potentially at risk from quantum attacks.
How do I recover my Math Wallet if I lose my device?
Recovery depends entirely on whether you have your seed phrase backed up. If you saved your 12 or 24-word recovery phrase, recovery is straightforward. Download Math Wallet on your new device and select “Import Wallet” or “Restore Wallet.”
Enter your seed phrase in the correct order, and your wallet will be restored with all your assets. The seed phrase mathematically generates your private keys, so entering it recreates your wallet exactly. You don’t need to contact customer support or go through any approval process.
However, if you didn’t back up your seed phrase, there is absolutely no way to recover your wallet. This isn’t Math Wallet being unhelpful—it’s fundamental to how non-custodial wallets work. Your seed phrase IS your wallet.
No company, no customer service team, no developer can recover it for you. The moment you create a wallet, write down that seed phrase on paper. Verify you wrote it correctly by checking each word.
Store it somewhere safe like a fireproof safe or safety deposit box. Treat it like you’d treat a pile of cash equal to your crypto holdings. Some people create multiple backup copies stored in different secure locations.
What fees does Math Wallet charge?
Math Wallet itself doesn’t charge fees for basic wallet functionality. Downloading, setting up, storing assets, or managing your portfolio is completely free. However, you’ll encounter blockchain transaction fees whenever you send crypto or interact with smart contracts.
These fees go to the blockchain network’s validators or miners, not to Math Wallet. They vary significantly based on which blockchain you’re using and current network congestion. Ethereum gas fees can range from a few dollars to over during peak congestion.
Networks like Binance Smart Chain, Polygon, or Fantom typically have fees under
Frequently Asked Questions (FAQs)
What is Math Wallet?
Math Wallet is both a multi-chain cryptocurrency wallet and a blockchain ecosystem with its own MATH token. The wallet is a non-custodial solution available on iOS, Android, browser extension, and web interface. Eric Yu and the Math Global team developed it around 2017-2018.
It supports over 100 blockchains and over 3,000 DApps. This makes it one of the most comprehensive multi-chain wallets available. Here’s what’s important: you don’t need to own MATH tokens to use the wallet.
The MATH token serves as the ecosystem’s utility token for governance, staking, and accessing premium features. Basic wallet functionality is completely free and doesn’t require token holdings. The wallet provides a single interface for managing digital assets across multiple blockchain networks.
Supported networks include Ethereum, Bitcoin, Polkadot, Cosmos, Binance Smart Chain, and dozens of smaller networks.
How do I set up and use Math Wallet?
Setting up Math Wallet is straightforward, but you need to follow careful security steps. First, download the app only from official sources—the Apple App Store, Google Play Store, or official website. Scam versions exist, so verify you’re getting the legitimate app.
Once downloaded, choose “Create New Wallet” and you’ll generate a 12 or 24-word recovery phrase. Write this down on paper—not digitally—and store it somewhere safe like a fireproof safe. If you lose this phrase and your phone, your crypto is gone forever.
No customer service can recover it. That’s the fundamental trade-off with non-custodial wallets. After securing your seed phrase, set up biometric authentication and a PIN code for daily access.
To use the wallet, select which blockchain network you want to interact with from the network list. Copy your receiving address from the “Receive” tab when you want to deposit crypto. To send tokens, paste the recipient address, enter the amount, and confirm the transaction.
The built-in DApp browser lets you connect to decentralized applications directly. The interface takes about 20 minutes to understand if you’re new to multi-chain wallets. It becomes intuitive once you’ve clicked around.
Is Math Wallet safe and secure?
Math Wallet is fundamentally secure because it’s non-custodial, meaning you control your private keys. This is inherently more secure than keeping crypto on custodial exchanges. The wallet’s code has been audited, and it includes standard security features.
However, no wallet is ever 100% safe. The biggest security risk isn’t the wallet itself but user behavior. If you save your seed phrase digitally or fall for phishing scams, no security features can save you.
Math Wallet includes helpful tools like transaction simulation and smart contract scanning against known scam databases. There’s also the broader quantum computing threat that affects all cryptocurrency wallets. Roughly 6 million BTC are potentially vulnerable to future quantum attacks because of old address formats.
Math Wallet’s security ultimately depends on both the wallet’s technology and your own security practices. Use strong passwords, never share your seed phrase, and verify addresses before sending. Be cautious about which DApps you connect to.
What blockchains does Math Wallet support?
Math Wallet supports over 100 blockchains, which is significantly more than most competing wallets. Major supported networks include Ethereum, Bitcoin, Binance Smart Chain, Polkadot, and Cosmos. It also supports Polygon, Avalanche, Fantom, Solana, and numerous Layer 2 solutions like Arbitrum and Optimism.
The wallet also supports many smaller and region-specific blockchains, particularly those popular in Asian markets. This comprehensive coverage is Math Wallet’s primary value proposition. You can manage a diverse crypto portfolio from one interface instead of juggling separate wallet apps.
The wallet handles both EVM-compatible chains and non-EVM chains like Bitcoin, Polkadot, and Cosmos. This sets it apart from Ethereum-focused wallets like MetaMask. Math Wallet regularly adds support for new blockchain networks.
The wallet expanded from around 80 supported chains to over 100 in recent years. You simply select your network from the list, and the wallet switches to show your assets. It also displays your transaction history on that specific blockchain.
Do I need to hold MATH tokens to use Math Wallet?
No, you absolutely do not need to hold MATH tokens to use Math Wallet. The wallet application is completely free to download and use, with no mandatory token holdings. MATH is the ecosystem’s utility token, which serves functions like governance and staking for rewards.
However, all basic wallet functionality works perfectly without owning a single MATH token. This includes storing assets, sending and receiving crypto, connecting to DApps, and managing multiple chains. The only costs you’ll encounter are standard blockchain transaction fees that go to network validators.
These fees exist on every blockchain regardless of which wallet you use. Some advanced features might offer bonuses or discounts to MATH token holders. The separation between the wallet application and the MATH token is actually a strength.
It means the wallet’s utility isn’t dependent on token price. Users aren’t forced into token exposure they might not want.
How does Math Wallet compare to MetaMask and Trust Wallet?
Each wallet serves somewhat different niches. MetaMask is the dominant Ethereum-focused wallet with excellent support for EVM-compatible chains. It’s deeply integrated into Ethereum culture and has robust browser extension support.
However, MetaMask doesn’t natively support non-EVM chains like Bitcoin, Polkadot, or Cosmos—Math Wallet does. Trust Wallet, acquired by Binance, has significantly larger brand recognition and user base, particularly in Western markets. It supports around 65+ blockchains compared to Math Wallet’s 100+.
Trust Wallet’s interface is generally more polished and intuitive. Trust Wallet feels like a consumer product, while Math Wallet sometimes feels more like a developer tool. Math Wallet’s advantages are broader blockchain coverage, especially for smaller or Asian-market chains.
It also has open-source code that can be independently verified and built-in cross-chain swap functionality. Trust Wallet has better Binance ecosystem integration, while Math Wallet maintains more independence. If you’re primarily using major chains, Trust Wallet or MetaMask probably offers a smoother experience.
If you need support for obscure chains or prefer comprehensive multi-chain support, Math Wallet might fit better. Many users have all three depending on what they’re doing.
Can I use Math Wallet with a hardware wallet like Ledger?
Yes, Math Wallet supports hardware wallet integration with devices like Ledger and Trezor. This is a security feature strongly recommended for larger crypto holdings. This setup gives you the best of both worlds.
You get the convenience of Math Wallet’s multi-chain interface combined with the security of offline private key storage. Your private keys never leave the hardware device. Math Wallet acts as the interface for viewing balances and constructing transactions.
The actual transaction signing happens on the hardware wallet itself. You’ll need to confirm each transaction by physically pressing buttons on your device. Setting this up requires connecting your hardware wallet to your computer or phone.
Then import accounts into Math Wallet using the hardware wallet option rather than creating a new software wallet. The process is a bit more technical than using Math Wallet alone, but it significantly increases security. Even if your phone or computer is compromised, attackers can’t access your funds without physical possession.
This configuration is particularly valuable for long-term holdings. It still allows you to interact with DApps and manage multiple chains through Math Wallet’s interface.
What are the main security risks when using Math Wallet?
The security risks with Math Wallet are similar to those with any non-custodial cryptocurrency wallet. Most stem from user error rather than wallet vulnerabilities. The biggest risk is losing your seed phrase.
If your phone is lost, stolen, or damaged and you don’t have your recovery phrase backed up, your crypto is permanently inaccessible. Write your seed phrase on paper and store it securely. Never save it digitally or take screenshots.
Phishing scams are another major threat. Attackers create fake websites or apps that look like Math Wallet and trick you into entering your seed phrase. Always verify you’re using the official Math Wallet app or website.
Malicious smart contracts pose significant risk, especially when using the DApp browser. Some contracts are designed to drain your wallet when you approve them. Math Wallet includes transaction simulation and contract scanning features to help identify suspicious contracts.
Always research DApps before connecting your wallet. Be extremely cautious about signing approval transactions that give contracts permission to spend your tokens. Address mistakes—sending crypto to the wrong address or wrong network—result in permanent loss.
Double-check addresses and network selection before confirming transactions. Finally, there’s the broader quantum computing threat that could eventually compromise the cryptography protecting all cryptocurrency wallets. Roughly 6 million BTC are potentially at risk from quantum attacks.
How do I recover my Math Wallet if I lose my device?
Recovery depends entirely on whether you have your seed phrase backed up. If you saved your 12 or 24-word recovery phrase, recovery is straightforward. Download Math Wallet on your new device and select “Import Wallet” or “Restore Wallet.”
Enter your seed phrase in the correct order, and your wallet will be restored with all your assets. The seed phrase mathematically generates your private keys, so entering it recreates your wallet exactly. You don’t need to contact customer support or go through any approval process.
However, if you didn’t back up your seed phrase, there is absolutely no way to recover your wallet. This isn’t Math Wallet being unhelpful—it’s fundamental to how non-custodial wallets work. Your seed phrase IS your wallet.
No company, no customer service team, no developer can recover it for you. The moment you create a wallet, write down that seed phrase on paper. Verify you wrote it correctly by checking each word.
Store it somewhere safe like a fireproof safe or safety deposit box. Treat it like you’d treat a pile of cash equal to your crypto holdings. Some people create multiple backup copies stored in different secure locations.
What fees does Math Wallet charge?
Math Wallet itself doesn’t charge fees for basic wallet functionality. Downloading, setting up, storing assets, or managing your portfolio is completely free. However, you’ll encounter blockchain transaction fees whenever you send crypto or interact with smart contracts.
These fees go to the blockchain network’s validators or miners, not to Math Wallet. They vary significantly based on which blockchain you’re using and current network congestion. Ethereum gas fees can range from a few dollars to over $50 during peak congestion.
Networks like Binance Smart Chain, Polygon, or Fantom typically have fees under $1. Math Wallet displays estimated transaction fees before you confirm. For transactions involving the built-in cross-chain swap feature, there are typically small protocol fees.
These usually range from 0.1-0.3% and go to the liquidity providers and swap protocol. Some premium features might offer discounts or benefits to MATH token holders. Using separate wallets for each blockchain often means dealing with the same transaction fees.
Math Wallet provides convenience without adding additional fee layers beyond what you’d pay anyway.
Can I stake crypto or earn yield through Math Wallet?
Yes, Math Wallet provides access to staking and DeFi yield opportunities. It’s primarily serving as a gateway rather than offering its own staking service. Through the built-in DApp browser, you can connect to various DeFi protocols.
These offer staking, yield farming, liquidity provision, and lending across multiple blockchains. For example, you could stake DOT through Polkadot’s native staking interface. You could provide liquidity on Uniswap or PancakeSwap.
The wallet also supports direct staking for certain Proof-of-Stake blockchains. You can delegate your tokens to validators directly through the wallet interface. The specific staking options available depend on which blockchain network you’re using.
MATH tokens themselves can be staked through certain platforms for additional rewards. This requires holding MATH and isn’t necessary for general wallet use. You’re interacting with third-party protocols that have their own risks.
Smart contract vulnerabilities, impermanent loss in liquidity pools, and protocol-specific risks all apply. Math Wallet facilitates access but doesn’t control these protocols or guarantee their safety. Always research any DeFi protocol before depositing significant funds.
Is Math Wallet available in my country?
Math Wallet is available globally as a downloadable application and browser extension. However, your ability to use certain features might be restricted based on local regulations. The wallet itself doesn’t implement geographic restrictions on downloads or basic functionality.
You can install it from the iOS App Store, Google Play Store, or as a browser extension from most countries. However, some integrated services like exchanges or DApp connections might have geographic restrictions. Math Wallet is particularly popular in Asian markets including China, Korea, Southeast Asia, and Japan.
In Western markets like the United States, Canada, and Europe, the wallet works perfectly fine. It faces stiffer competition from more established wallets like MetaMask and Trust Wallet. Some countries with strict cryptocurrency regulations might restrict app store access or block certain wallet-related websites.
The decentralized nature of non-custodial wallets means that if you can download the app, you can generally use it. Regulatory developments are ongoing globally, and future restrictions are possible. For now, Math Wallet maintains its non-custodial, no-KYC structure.
How do I add custom tokens to Math Wallet?
Adding custom tokens to Math Wallet is straightforward once you understand the process. Most major tokens are automatically detected and displayed in your wallet. Smaller or newer tokens might need to be added manually.
First, make sure you’re viewing the correct blockchain network where the token exists. Then look for an option like “Add Token,” “Custom Token,” or a “+” icon. You’ll need the token’s contract address, which you can find on the project’s website or CoinGecko.
Copy the contract address and paste it into Math Wallet’s add token field. The wallet should automatically populate the token symbol and decimals. Confirm the addition, and the token should now appear in your asset list.
If you’ve received tokens but don’t see them, they’re still there on the blockchain. Adding the token just makes them visible in your wallet interface. Be extremely careful when adding custom tokens.
Scammers sometimes create fake tokens with similar names to legitimate projects. Always verify the contract address from official sources before adding it. Some tokens might not display correctly if they use non-standard token implementations.
What should I do if I sent crypto to the wrong address or wrong network?
This is unfortunately one of the worst situations in crypto. The answer depends on the specific mistake. If you sent crypto to the wrong address on the correct network, the transaction is generally irreversible.
Cryptocurrency transactions are final once confirmed. There’s no “undo” button, no customer service that can reverse it. If you accidentally sent to an address you control, you can still access those funds.
If you sent to someone else’s address, your only option is to contact them and request they return the funds. If you sent crypto to the right address but on the wrong network, recovery might be possible but complicated. If you control the private keys for that address on both networks, you can import your wallet.
For example, if you sent BSC tokens to your Ethereum address, viewing that same address on BSC network would show the tokens. Math Wallet’s multi-chain support actually helps here since you can view the same address across different networks. However, if you sent to an exchange address on the wrong network, you’re dependent on the exchange’s willingness to help recover.
The lesson: always double-check both the recipient address AND the network selection before confirming transactions. Send a small test amount first when dealing with large sums or unfamiliar addresses.
How often should I update Math Wallet?
You should update Math Wallet whenever new versions are released. Typically install updates within a few days of release. Regular updates are important for several reasons.
They include security patches that address newly discovered vulnerabilities and compatibility with blockchain network upgrades. They also provide bug fixes that improve stability and performance. Math Wallet usually releases updates every few weeks to few months.
On mobile devices, you’ll receive update notifications through the App Store or Google Play Store. Review the update notes to see what changed, then install the update. For browser extensions, updates often happen automatically.
Before major updates, some users prefer to verify their seed phrase backup is still accessible. After updating, check that all your wallets and assets are still visible and accessible. Your actual crypto exists on the blockchain, not in the app.
If you encounter problems after an update, Math Wallet’s support channels usually address major issues quickly. Don’t delay critical security updates. If you’re in the middle of important transactions
. Math Wallet displays estimated transaction fees before you confirm. For transactions involving the built-in cross-chain swap feature, there are typically small protocol fees.
These usually range from 0.1-0.3% and go to the liquidity providers and swap protocol. Some premium features might offer discounts or benefits to MATH token holders. Using separate wallets for each blockchain often means dealing with the same transaction fees.
Math Wallet provides convenience without adding additional fee layers beyond what you’d pay anyway.
Can I stake crypto or earn yield through Math Wallet?
Yes, Math Wallet provides access to staking and DeFi yield opportunities. It’s primarily serving as a gateway rather than offering its own staking service. Through the built-in DApp browser, you can connect to various DeFi protocols.
These offer staking, yield farming, liquidity provision, and lending across multiple blockchains. For example, you could stake DOT through Polkadot’s native staking interface. You could provide liquidity on Uniswap or PancakeSwap.
The wallet also supports direct staking for certain Proof-of-Stake blockchains. You can delegate your tokens to validators directly through the wallet interface. The specific staking options available depend on which blockchain network you’re using.
MATH tokens themselves can be staked through certain platforms for additional rewards. This requires holding MATH and isn’t necessary for general wallet use. You’re interacting with third-party protocols that have their own risks.
Smart contract vulnerabilities, impermanent loss in liquidity pools, and protocol-specific risks all apply. Math Wallet facilitates access but doesn’t control these protocols or guarantee their safety. Always research any DeFi protocol before depositing significant funds.
Is Math Wallet available in my country?
Math Wallet is available globally as a downloadable application and browser extension. However, your ability to use certain features might be restricted based on local regulations. The wallet itself doesn’t implement geographic restrictions on downloads or basic functionality.
You can install it from the iOS App Store, Google Play Store, or as a browser extension from most countries. However, some integrated services like exchanges or DApp connections might have geographic restrictions. Math Wallet is particularly popular in Asian markets including China, Korea, Southeast Asia, and Japan.
In Western markets like the United States, Canada, and Europe, the wallet works perfectly fine. It faces stiffer competition from more established wallets like MetaMask and Trust Wallet. Some countries with strict cryptocurrency regulations might restrict app store access or block certain wallet-related websites.
The decentralized nature of non-custodial wallets means that if you can download the app, you can generally use it. Regulatory developments are ongoing globally, and future restrictions are possible. For now, Math Wallet maintains its non-custodial, no-KYC structure.
How do I add custom tokens to Math Wallet?
Adding custom tokens to Math Wallet is straightforward once you understand the process. Most major tokens are automatically detected and displayed in your wallet. Smaller or newer tokens might need to be added manually.
First, make sure you’re viewing the correct blockchain network where the token exists. Then look for an option like “Add Token,” “Custom Token,” or a “+” icon. You’ll need the token’s contract address, which you can find on the project’s website or CoinGecko.
Copy the contract address and paste it into Math Wallet’s add token field. The wallet should automatically populate the token symbol and decimals. Confirm the addition, and the token should now appear in your asset list.
If you’ve received tokens but don’t see them, they’re still there on the blockchain. Adding the token just makes them visible in your wallet interface. Be extremely careful when adding custom tokens.
Scammers sometimes create fake tokens with similar names to legitimate projects. Always verify the contract address from official sources before adding it. Some tokens might not display correctly if they use non-standard token implementations.
What should I do if I sent crypto to the wrong address or wrong network?
This is unfortunately one of the worst situations in crypto. The answer depends on the specific mistake. If you sent crypto to the wrong address on the correct network, the transaction is generally irreversible.
Cryptocurrency transactions are final once confirmed. There’s no “undo” button, no customer service that can reverse it. If you accidentally sent to an address you control, you can still access those funds.
If you sent to someone else’s address, your only option is to contact them and request they return the funds. If you sent crypto to the right address but on the wrong network, recovery might be possible but complicated. If you control the private keys for that address on both networks, you can import your wallet.
For example, if you sent BSC tokens to your Ethereum address, viewing that same address on BSC network would show the tokens. Math Wallet’s multi-chain support actually helps here since you can view the same address across different networks. However, if you sent to an exchange address on the wrong network, you’re dependent on the exchange’s willingness to help recover.
The lesson: always double-check both the recipient address AND the network selection before confirming transactions. Send a small test amount first when dealing with large sums or unfamiliar addresses.
How often should I update Math Wallet?
You should update Math Wallet whenever new versions are released. Typically install updates within a few days of release. Regular updates are important for several reasons.
They include security patches that address newly discovered vulnerabilities and compatibility with blockchain network upgrades. They also provide bug fixes that improve stability and performance. Math Wallet usually releases updates every few weeks to few months.
On mobile devices, you’ll receive update notifications through the App Store or Google Play Store. Review the update notes to see what changed, then install the update. For browser extensions, updates often happen automatically.
Before major updates, some users prefer to verify their seed phrase backup is still accessible. After updating, check that all your wallets and assets are still visible and accessible. Your actual crypto exists on the blockchain, not in the app.
If you encounter problems after an update, Math Wallet’s support channels usually address major issues quickly. Don’t delay critical security updates. If you’re in the middle of important transactions
Can I stake crypto or earn yield through Math Wallet?
Is Math Wallet available in my country?
How do I add custom tokens to Math Wallet?
What should I do if I sent crypto to the wrong address or wrong network?
How often should I update Math Wallet?
