What is Blockchain technology? What makes it so important?

Imagine a world where you can send money directly to someone without a bank – in seconds instead of days, and you don’t pay exorbitant bank fees.

This is not a world of the future; it is a world that an avid but growing number of early adopters live in right now. And these are just a few of the important blockchain technology use cases that are transforming the way we trust and exchange value. We’ll get into the rest later on.

Or one where you store money in an online wallet not tied to a bank, meaning you are your own bank and have complete control over your money. You don’t need a bank’s permission to access or move it, and never have to worry about a third party taking it away, or a government’s economic policy manipulating it.

Yet, for many, blockchain technology is still a mysterious or even intimidating topic. Some even remain skeptical that we’ll use this technology in the future. This skepticism that exists today is understandable because we’re still very early in the development and widespread adoption of blockchain technology.

2021 is to blockchain what the late 1990s were to the internet. And like the internet, blockchain technology is anything but a fad, it’s here to stay, and if you’re reading this, you’re early too.

This post demysties blockchain technology. This is your ‘intro to blockchain technology 101’. A complete, easy-to-understand, step by step beginners blockchain breakdown. You’ll learn everything from what blockchain is and why it matters, to how blockchain works (step by step) and what today – tomorrow’s – most promising blockchain applications may be.

You’ll also walk away from this post confident, and well on your way to making informed, independent blockchain technology investment decisions. And you’ll be no slouch if you want to hold your own in conversations with family and friends too!

So let’s dive in

Blockchain 101: Blockchain For Beginners

Blockchain technology is the concept or protocol behind the running of the blockchain. Blockchain technology makes cryptocurrencies (digital currencies secured by cryptography) like Bitcoin work just like the internet makes email possible.

The blockchain is an immutable (unchangeable, meaning a transaction or file recorded cannot be changed) distributed digital ledger (digital record of transactions or data stored in multiple places on a computer network) with many use cases beyond cryptocurrencies.

Immutable and distributed are two fundamental blockchain properties. The immutability of the ledger means you can always trust it to be accurate. Being distributed protects the blockchain from network attacks.

Each transaction or record on the ledger is stored in a “block.” For example, blocks on the Bitcoin blockchain consist of an average of more than 500 Bitcoin transactions.

The information contained in a block is dependent on and linked to the information in a previous block and, over time, forms a chain of transactions. Hence the word blockchain.

Types of Blockchains

There are four types of blockchains:

1. Public Blockchains

Public blockchains are open, decentralized networks of computers accessible to anyone wanting to request or validate a transaction (check for accuracy). Those (miners) who validate transactions receive rewards.

Public blockchains use proof-of-work or proof-of-stake consensus mechanisms (discussed later). Two common examples of public blockchains include the Bitcoin and Ethereum (ETH) blockchains.

2. Private Blockchains

Private blockchains are not open, they have access restrictions. People who want to join require permission from the system administrator. They are typically governed by one entity, meaning they’re centralized. For example, Hyperledger is a private, permissioned blockchain.

3. Hybrid Blockchains or Consortiums

Consortiums are a combination of public and private blockchains and contain centralized and decentralized features. For example, Energy Web Foundation, Dragonchain, and R3.

Take note: There isn’t a 100 percent consensus on whether these are different terms. Some make a distinction between the two, while others consider them the same thing.

4. Sidechains

A sidechain is a blockchain running parallel to the main chain. It allows users to move digital assets between two different blockchains and improves scalability and efficiency. An example of a sidechain is the Liquid Network.

History of Blockchain

Blockchain isn’t just a database, it’s a new technology stack with ‘digital trust’ that is revolutionizing the way we exchange value and information across the internet, by taking out the ‘gatekeepers’ from the process. For a complete and more detailed deep dive check out our article: A Concise History of Blockchain Technology

Blockchain history goes back farther than you might imagine, but we’ve condensed it by answering four critical questions:

Who Invented Blockchain?

The first blockchain-like protocol was proposed by cryptographer David Chaum in 1982. Later in 1991, Stuart Haber and W. Scott Stornetta wrote about their work on Consortiums.

But it was Satoshi Nakamoto (presumed pseudonym for a person or group of people) who invented and implemented the first blockchain network after deploying the world’s first digital currency, Bitcoin.

Cryptography is a deep and fascinating discipline with a history that goes back further than blockchain. For a richer understanding of  how cryptography helps blockchain technology, check out: Why Cryptography Makes Blockchain Unstoppable

Who Owns Blockchain Technology?

Because blockchain technology is the technology behind the blockchain, it cannot be owned. It’s like the internet. But anyone can use the technology to run and own their own blockchains.

Who Founded Bitcoin?

Satoshi Nakamoto.

Who Sent and Received the First Bitcoin Transaction?

Nakamoto sent ten bitcoins to Hal Finney, who built the first reusable proof-of-work system in 2004.

How Does a Public Blockchain Work (Step-by-Step)

For a more in-depth account of the next section, check out the thorough discussion in: What is Blockchain Technology and How Does it Work?

Let’s start with an oversimplification.

As a society, we created ledgers to store information—and they have a variety of applications. For example, we use ledgers in real estate to store a house’s records, such as when alterations were made or the house was sold. We also use ledgers in bookkeeping to record all the transactions a company makes.

Bookkeeping mostly relies on double-entry accounting to store transactions. Although this is a step-up from single-entry accounting that lacks transparency and accountability, double-entry accounting also has its pitfalls: Entries are accounted for separately, making it difficult for one counterparty to verify the other’s records.

Records stored using traditional ledgers are also easy to tamper with, meaning you can easily edit, remove, or add a record. As a result, you’re less likely to trust that the information is accurate.

Public blockchains solve both these problems – and the way we trust – by evolving the traditional bookkeeping model to triple-entry bookkeeping: transactions on a blockchain are cryptographically sealed by a third entry. This creates a tamper-proof record of transactions stored in blocks and verified by a distributed consensus mechanism.

These consensus mechanisms also ensure new blocks get added to any blockchain. An example of a consensus mechanism is proof-of-work (PoW), often referred to as “mining.”

Mining isn’t universal to all blockchains; it’s just one type of consensus mechanism currently used by Bitcoin and Ethereum, though Ethereum plans to move to another—proof-of-stake (PoS)— by 2022.

Here’s how this process works with Bitcoin. When sending Bitcoin, you pay a small fee (in bitcoin) for a network of computers to confirm your transaction is valid. Your transaction is then bundled with other transactions pending in a queue to be added to a new block.

The computers (nodes) then work to validate this list of transactions in the block by solving a complex mathematical problem to come up with a hash, which is a 64-digit hexadecimal number.

Once solved, the block is added to the network—and your fee, combined with all other transaction fees in that block, is the miner’s reward. It’s that simple.

Each new block added to the network is assigned a unique key (via cryptography). To obtain each new key, the previous block’s key and information are inputted into a formula.

As new blocks are continually added through the ongoing mining process, they become increasingly secure and harder to tamper with. Anyone caught trying to edit a record will simply be ignored. All future blocks then depend on information from prior blocks—and this dependency from one block to the next forms a secure chain: the blockchain.

You can see this depicted below for house records stored on the blockchain. For example, Block 2 provides a key after taking all the information from Block 1 into account (including the key) and inputting it into a formula. Block 3, in turn, provides a new key after taking all the information from Block 1 and Block 2 into account (including the key) and inputting it into a formula. And so, the process repeats itself indefinitely.

Now, let’s dig deeper, exploring proof-of-work (PoW) vs. proof-of-stake (PoS) and the blockchain trilemma, which are fundamental to the public blockchain’s functioning.

Proof of Work (PoW) vs. Proof of Stake (PoS)

A public blockchain functions through consensus mechanisms: the process for validating transactions without a third party like a bank.

PoW and PoS are two such mechanisms. While their goal—to reach a consensus that a transaction is valid—remains the same, how they get there is a little different.

What Is PoW?

PoW, the technical term for mining, is the original consensus mechanism. It is still used by Bitcoin and Ethereum as of writing but, as mentioned, Ethereum will move to PoS by 2022. PoW is based on cryptography, which uses mathematical equations only computers can solve.

The example in the previous section of how blocks get added to the Bitcoin Blockchain explains this system.

The two big problems with PoW are that it uses a lot of electricity and can only process a limited number of transactions simultaneously (seven for Bitcoin). Transactions typically take at least ten minutes to complete, with this delay increasing when the network is congested. Though compared to the days-long wait required to wire money across the globe, or even to clear a check, Bitcoin’s ten-minute delay is quite remarkable.

Other consensus mechanisms were created to solve these PoW problems; the most popular being PoS.

What Is PoS?

PoS still uses cryptographic algorithms for validation, but transactions get validated by a chosen validator based on how many coins they hold, also known as their stake.

Individuals aren’t technically mining, and there’s no block reward. Instead, blocks are ‘forged.’ Those participating in this process lock a specific number of coins on the network.

The bigger a person’s stake, the more mining power they have—and the higher the chances they’ll be selected as the validator for the next block.

To ensure those with the most coins aren’t always selected, other selection methods are used. These include randomized block selection (forgers with the highest stake and lowest hash value are chosen) and coin age selection (forgers are selected based on how long they’ve held their coins)

The results are faster transaction times and lower costs. The NEO and Dash cryptocurrencies, for example, can send and receive transactions in seconds.

Blockchain or Scalability Trilemma: Decentralization, Security, and Scalability

Most blockchain projects are built around three core properties: decentralization, scalability, and security. Developers are constantly trying to balance these aspects, so one isn’t compromised.

But they often have to sacrifice one for the others. The ‘blockchain trilemma,’ concept was first coined the ‘scalability trilemma’ by Ethereum founder, Vitalik Buterin.

Let’s look at these concepts in more detail and explore the tradeoffs:

Decentralization

Decentralization means there’s no central point of control. Instead, decisions are made via consensus over a distributed network of computers.

There is, however, one significant tradeoff: speed. Sending transactions takes longer because multiple confirmations are required to validate a transaction. Hence why Bitcoin is slow.

Scalability

Scalability is the ability of the system to cope with a growing number of transactions. Scalability is crucial for mass adoption because any system needs to operate efficiently as more people use it.

Below is a rough breakdown of how many transactions Ethereum, Bitcoin, and credit card companies can process per second:

  • Bitcoin: seven per second
  • Ethereum: 30 per second
  • Credit cards: 5,000 credit card transactions per second with the ability to process much more if needed. Visa, for example, can process up to 24,000 transactions per second.

But achieving scalability often comes at the expense of decentralization. EOS, for example, promises a maximum of 4000 TPS but has come under criticism for being too centralized.

Security

Security is the ability of a blockchain to be protected from attacks. Unfortunately, exchanges and source code have been hacked on many occasions, suggesting that many developers focus on scalability and decentralization at the expense of security.

What Is the Difference Between Bitcoin and Ethereum Blockchains?

Bitcoin and Etherum are the two biggest cryptocurrencies and blockchains, so discussing and comparing them makes sense.

Bitcoin Basics

The Bitcoin network is a public, decentralized peer-to-peer payment network that allows users to send and receive bitcoins without a bank getting involved. The digital currency or bitcoin token uses the ticker symbol BTC, and is the only cryptocurrency traded on the Bitcoin network.

Transactions are recorded using a digital ledger, and nodes ensure the PoW consensus mechanism is followed (or that mining happens). For many, Bitcoin seems complicated, but it isn’t when you view it as a combination of three things:

  • A peer-to-peer payment system: You can send money (BTC) from one person or company to another without the need for a bank. Sending money this way is faster, more secure, and cheaper than using traditional methods.
  • A decentralized system like the internet, so it’s not controlled by one entity and cannot be stopped by a third party.
  • A store of value like gold (often called digital gold), but much easier to transfer than gold.

Ethereum Basics

In 2013, after traveling, meeting with bitcoin developers, and discovering Bitcoin’s limitations, Vitlaik Buterin decided to improve upon the Bitcoin blockchain and built Ethereum.

The Ethereum network is a public, decentralized peer-to-peer network. Like Bitcoin, it uses nodes and allows users to send and receive cryptocurrency—in this case, Ether.

The network is much more than a payment system—it was primarily created to deploy decentralized applications (dapps) and smart contracts.

Dapps are simply ‘decentralized apps,’ or computer programs that interact with the Ethereum blockchain. Smart contracts, however, operate on the Ethereum blockchain, and are contracts that automatically execute without an intermediary once certain conditions (written into computer code) are met. For example, a smart contract could be programmed to send a designated person a portion of your Bitcoin when you die.

Ethereum vs. Bitcoin Blockchains

In summary, Bitcoin and Ethereum networks are public, decentralized peer-to-peer networks with their own tokens: bitcoins and Ether. Both rely on cryptography, and both use digital ledger technology. For a complete Ethereum vs. Bitcoin match up check out our deep dive post: Ethereum Vs Bitcoin: What’s the Difference? 

But they differ significantly in purpose and capability. Bitcoin is a decentralized payment system and a store of value. Its blockchain is a database of all bitcoin transactions and tracks their ownership. Ethereum is more than a payment system and allows smart contracts and apps to be built on it, making it a more sophisticated blockchain.

What Are the Benefits of Blockchains Over Traditional Finance?

  1. Trustless: The blockchain is immutable and automates trusted transactions between counterparties who do not need to know each other. Transactions are only executed when programmed conditions are met by both parties.
  2. Unstoppable: Once the conditions programmed into a blockchain protocol are met, an initiated transaction cannot be undone, changed, or stopped. It’s going to execute and nothing – no bank, government, or third party – can stop it.
  3. Immutable: Records on a blockchain cannot be changed or tampered with – Bitcoin has never been hacked. A new block of transactions is only added after a complex mathematical problem is solved and verified by a consensus mechanism. Each new block has a unique cryptographic key resulting from the previous block’s information and key being added into a formula.
  4. Decentralized: No single entity maintains the network. Unlike centralized banks, decisions on the blockchain are made via consensus. Decentralization is essential because it ensures people can easily access and build on the platform, and there are multiple points of failure.
  5. Lower Cost: In the traditional finance system, you pay third parties like banks to process transactions. The blockchain eliminates these intermediaries and reduces fees, with some systems returning fees to miners and stakers.
  6. Peer-to-Peer: Cryptocurrencies like Bitcoin, let you send money directly to anyone, anywhere in the world, without an intermediary like a bank charging transaction or handling fees.
  7. Transparent: Public blockchains are open-source software, so anyone can access them to view transactions and their source code. They can even use the code to build new applications and suggest improvements to the code. Suggestions are accepted or rejected via consensus.
  8. Universal Banking: 2 Billion people globally do not have a bank account. Because anyone can access the blockchain to store money, it’s a great way to bank the unbanked and protect against theft that can happen due to holding cash in physical locations.

What Are the Disadvantages of Blockchains?

Public open source blockchains are not without their hazards and challenges. Here is a list of the top concerns:

1. Environmental Impact

Blockchain networks like Bitcoin use a lot of electricity to validate transactions, leading to environmental concerns. For example, Bitcoin consumes more electricity than a small, medium-sized European country, and Bitcoin mining is threatening China’s climate change goals.

However, many would argue that Bitcoin is held to higher environmental standards than anyone and anything. This may be true, especially if you consider that the blockchain and Bitcoin are an alternative to the traditional finance system that uses much more electricity and has a much larger environmental impact.

A study by Galaxy Digital suggests Bitcoin energy consumption is less than half that of the traditional banking system. If anything, you could argue that Bitcoin is a step in the right direction for the environment.

No one is saying that making strides to lowering the carbon footprint shouldn’t be on the agenda (this is already happening with some mining farms shifting to renewable energy sources like solar panels and the El Salvadoran President calling for a plan to use geothermal energy (volcanoes) to mine Bitcoin).

But it’s crucial to maintain a balanced view when viewing the cost, environmental impact, and blockchain benefits.

2. Personal Responsibility

One of blockchains and cryptocurrencies’ most significant advantages is also its biggest weakness. When you invest in public open-source blockchains by mining or buying cryptocurrencies and store it in your cryptocurrency wallet (your wallet is like your bank account, except only you can access it and have the passwords), only you control your money.

You are your own bank— and this is great! But if you lose your seed phrases – the list of words that give you access to recover your wallets – there is no recourse (compared to banks where you can reset your password). Your money is lost forever.

Unsurprisingly, a large portion of Bitcoin remains permanently lost. According to some estimates, 20% or 3.7 million of the currently minted Bitcoin is probably lost forever.

3. Growing Pains

Even though public blockchains remain more efficient than traditional banking systems, decentralization comes at the cost of scalability. Trying to grow blockchain networks to global capacity, in turn, is the root cause of speed inefficiencies. It’s why, as we saw, Bitcoin and Ethereum can only process a maximum of seven and 30 transactions, respectively, compared to Visa’s 24,000.

Luckily solutions are being built to improve scalability and the speed of transactions. For example, the lightning network allows transactions to happen off the Bitcoin blockchain to speed up transactions. On Ethereum, many innovative Layer 2 (L2) solutions are being developed to improve scalability and speed including rollups, zero-knowledge proofs and side chains.

4. False Narratives

Some cryptocurrencies are undoubtedly used in unlawful activity. The most famous example is Silk Road: people laundered money and bought drugs on the platform using Bitcoin.

However, this is no different from the illegal activity that constantly happens when people use other currencies like the Dollar.

This false narrative that cryptocurrencies are only or mainly used for illicit activities only delays their inevitable adoption, which can hugely benefit everyone, including the financial system.

Promising Blockchain Use Cases and Killer Applications

For an even more in-depth discussion of the most interesting and disruptive blockchain use cases as of 2021 check our guide: Disruptive Blockchain Technology Use Cases 2021

Blockchain technology is currently used across various industries like supply chain, healthcare, retail, media and advertising, financial services, insurance, travel and transportation, oil and gas, and gaming.

Here are some promising use cases:

  1. Cryptocurrencies: The ‘killer app’ of blockchains today is internet money. Cryptocurrencies let you transfer value faster and cheaper across borders without a bank. Besides Bitcoin and Ethereum, other digital currency examples include Polkadot (DOT), NEO, Cardano (ADA), Tether (USDT), Binance Coin (BNB), and Litecoin (LTC).
  2. Smart Contracts: These blockchain applications are contracts that automatically execute without an intermediary once conditions written into the computer code are met.
  3. Decentralized Banking: The use of blockchain technology is also proliferating in banking. For example, many banks like Barclays, Canadian Imperial Bank, and UBS are interested in how blockchain can make their back-office settlement systems more efficient.
  4. Video Games/Art: You may have heard Crypto Kitties—a game launched on the Ethereum blockchain. One of the virtual pets in the game was sold for over $100,000.
  5. Peer-to-peer Energy Trading: People buy or sell energy directly without an intermediary.
  6. Supply chain and logistics tracking: Blockchain is being used to track precious metals’ origins and foods. For example, Walmart and IBM worked together to create a food traceability system based on open-source ledger technology, making it easier to trace contaminated food.
  7. Healthcare process optimization: Blockchain can speed up the time required to pay health insurance payments to patients and store and securely share medical data and records.
  8. Real estate processing platform: Property ownership records can be securely stored and verified on the blockchain. These records cannot be tampered with, so you can trust they’re accurate and more easily verify property ownership.
  9. NFT marketplaces: These are marketplaces that allow you to buy nonfungible tokens (NFTs): digital tokens of things like paintings and clothing.
  10. Music royalties tracking: Blockchain can trace music streams and immediately pay those who contributed to a song.
  11. Anti-money laundering tracking system: Authorities can more easily track the original source of money because every transaction on the blockchain is recorded and leaves behind a tamper-proof trail.
  12. Personal identity security: Traditional systems for storing identities are insecure and fragmented. Blockchain provides a unified, immutable, and interoperable infrastructure so you can store and manage records securely and efficiently.
  13. New insurance distribution methods: For example, peer-to-peer insurance, parametric insurance, and microinsurance.
  14. Automated Advertising Campaigns: Advertisers can use smart contracts to automate advertising campaigns, e.g., an audience is only shown an ad when specific criteria are met.

How to Invest in Blockchain Technology

With blockchain offering some promising use cases, helping many companies become more efficient, and attracting big companies like Amazon and Tesla, it can be an attractive investment.

But there are risks: It’s a new technology, and many projects will not pan out. So, invest only what you can afford to lose, do your own research to determine if the project (or initial coin offering) is worth investing in, and decide what level of exposure you want.

For example, you can get more exposure by investing in cryptocurrencies directly instead of an exchange-traded fund (ETF).

That being said, here are a variety of ways you can invest in the blockchain depending on your goals and risk tolerance:

  1. Buy shares in companies using blockchain (e.g., Visa, Walmart, and Siemens) on traditional stock exchanges like the NYSE. You can buy shares by using an online broker such as Vanguard and Betterment (U.S.).
  2. Invest in companies with Bitcoin on their balance sheet, e.g., Square, WeWork, MicroStrategy, and Tesla. Again, use an online broker to buy shares.
  3. Buy cryptocurrencies like Bitcoin or Ethereum directly on Centralized Finance (CeFi) or Decentralized (DeFi) exchanges. Centralized exchanges were the norm in the crypto world until decentralized exchanges arrived. With centralized exchanges, you don’t have your own private keys, and the exchange is the custodian for storing your funds. Decentralized exchanges are peer-to-peer, and there’s no intermediary. Examples of CeFi exchanges include Binance, Kraken, Bittrex, Bitfinex, Luno, and Coinbase. Examples of DeFi exchanges include Uniswap, Compound, KyberSwap, Airswap, IDEX, SushiSwap, Balancer, and Totle.
  4. Invest in crypto exchange-traded funds (ETFs). ETFs are a basket of securities that track an asset or index you can buy or sell on an exchange throughout the day. For example, many traditional ETFs will include bonds, currencies, commodities, and stocks and track the S&P 500 Index. In the crypto space, you get a variety of ETFs you can invest in, such as a Bitcoin ETF that tracks the price of Bitcoin. Each ETF will differ depending on who issues it. Companies that offer ETFs include Grayscale, Galaxy Digital, and Gemini.
  5. Invest in crypto mining companies such as Riot, Hive, and Marathon. Many mining companies let investors participate indirectly by offering equity in their companies. To invest in Riot, use an American-based online broker like Robinhood. To invest in Hive and Marathon, use a Canadian-based broker like Questrade, TD Direct Investing, or BMO InvestorLine.
  6. Buy crypto hardware and mine cryptocurrency yourself. While Bitcoin mining requires a large capital outlay, there are other tokens you can mine for a reasonably low barrier to entry. For example, Helium miners cost roughly $500 and mint HNT using the ‘proof of coverage’ consensus protocol to verify new blocks. Get started with cryptocurrency mining by reading our short guide on Bitcoin mining.
  7. Invest in mining pools. An alternative to mining cryptocurrency yourself is to join a mining pool. Mining pools pool together the computational power of others on the network to improve the chances of mining a block. The rewards for all blocks mined are shared among miners in the pool. Slush Pool is a popular mining pool.

Blockchain Companies to Invest in 2021

If you’re looking to get started with crypto investing, we’ve created a comprehensive step-by-step guide you can follow to get started here: How To Invest in Cryptocurrencies: The Ultimate Beginners Guide

Here is a comprehensive list of public blockchain companies to invest in. We have segmented them based on these categories: banking, supply chain, health care, energy, insurance, travel, real estate, exchanges, and mining.

These public companies are either using blockchain, have cryptocurrency on their balance sheets, allow you to trade cryptocurrency, or are mining cryptocurrency.

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