https://ift.tt/RS9h7Ww Makes an NFT Valuable?

What Makes an NFT Valuable?

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When exploring NFTs, it’s natural to look at Bored Ape Yacht Club (BAYC), with its explosive success and over 110 ETH floor price, and ask, what’s the next BAYC?

To which there’s an easy reply: There is no next BAYC.

BAYC is BAYC.

But, if we look beyond just the JPEGs and recognize that BAYC’s value is coming through the creation of some kind of web3 social network, then we can ask a more useful question: what other significant web3 social networks might emerge?

This question hints at the reasons why people are buying NFTs, as among observers who aren’t yet involved, there can be confusion about what it is that traders and collectors are actually paying for.

Trading JPEGs?

At the most basic level, an NFT is simply a token that (in most cases) links to a file. Are people trading JPEGs? Yes, in a sense, although you could make it all sound even more bizarre by pointing out that they’re actually trading links to JPEGs.

Still, this isn’t too much of a stretch to make sense of. There are some hugely talented artists selling their work through NFTs, and the token you buy gives definitive proof of ownership of a digital asset. In the traditional art dealing world, provenance is critical, and NFTs actually provide a more secure form of provenance.

Viewed in this way, if someone still chooses to dismiss NFTs, then that seems like a personal choice. There are people who will never accept the technology, and that’s their decision or inclination, and is something that happens in any area of change.

However, it’s certainly valid to ask why buyers are paying these amounts (meaning ETH equivalents of many thousands, or even millions, of dollars), for these particular JPEGs (meaning some of the collections which don’t fit the usual criteria of high quality or valuable art).

Expensive Stickmen

An example would be the MFers collection. Take a look at it and what do you see? It’s a 10,000 piece collection of stick figures, all in identical positions, roughly colored in with bright colors. Each asset is distinguished by its colors and accessories (headphones, sunglasses, watches, and so on), and every picture could have been drawn by, basically, anyone who can do stick figures.

And yet, currently, you can’t acquire one for less than 3.29 ETH (around $10,000), and many have sold for much higher sums.

To be clear, the “anyone could make that” criticism is nothing new, and you’ll hear it thrown at modern art all the time. The usual response in defense is something along the lines of, “yes, but anyone didn’t make it, this person did.”

With NFTs though, there are factors at play that aren’t present in traditional art, meaning it is worth addressing such criticism.

Digital keys

On the one hand, NFTs involve simple speculation, profit motives, and a curiously distorted Veblen effect. Veblen goods are high quality, luxury items for which demand increases as the price increases. The more expensive they are, the more desirable they become.

The strange aspect of this phenomenon when applied to some, but certainly not all, NFT collections is that the goods in question stretch the definition of what constitutes a high-quality luxury item, and neither do they appear to be attempting any kind of artistic, conceptual messaging.

And, this is where we come to a distinctive factor that has been overlooked by critics of NFTs. The token part of non-fungible token is crucial. Literally, this is a technical meaning: it’s a token on a  blockchain 
Blockchain

Blockchain comprises a digital network of blocks with a comprehensive ledger of transactions made in a
cryptocurrency such as Bitcoin or other altcoins.One of the signature features of blockchain is that it is maintained across more than one computer. The ledger can be public or private (permissioned.) In this sense, blockchain is immune to the manipulation of data making it not only open but verifiable. Because a blockchain is stored across a network of computers, it is very difficult to tamper with. The Evolution of BlockchainBlockchain was originally invented by an individual or group of people under the name of Satoshi Nakamoto in 2008. The purpose of blockchain was originally to serve as the public transaction ledger of Bitcoin, the world’s first cryptocurrency.In particular, bundles of transaction data, called “blocks”, are added to the ledger in a chronological fashion, forming a “chain.” These blocks include things like date, time, dollar amount, and (in some cases) the public addresses of the sender and the receiver.The computers responsible for upholding a blockchain network are called “nodes.” These nodes carry out the duties necessary to confirm the transactions and add them to the ledger. In exchange for their work, the nodes receive rewards in the form of crypto tokens.By storing data via a peer-to-peer network (P2P), blockchain controls for a wide range of risks that are traditionally inherent with data being held centrally.Of note, P2P blockchain networks lack centralized points of vulnerability. Consequently, hackers cannot exploit these networks via normalized means nor does the network possess a central failure point.In order to hack or alter a blockchain’s ledger, more than half of the nodes must be compromised. Looking ahead, blockchain technology is an area of extensive research across multiple industries, including financial services and payments, among others.

Blockchain comprises a digital network of blocks with a comprehensive ledger of transactions made in a cryptocurrency such as Bitcoin or other altcoins.One of the signature features of blockchain is that it is maintained across more than one computer. The ledger can be public or private (permissioned.) In this sense, blockchain is immune to the manipulation of data making it not only open but verifiable. Because a blockchain is stored across a network of computers, it is very difficult to tamper with. The Evolution of BlockchainBlockchain was originally invented by an individual or group of people under the name of Satoshi Nakamoto in 2008. The purpose of blockchain was originally to serve as the public transaction ledger of Bitcoin, the world’s first cryptocurrency.In particular, bundles of transaction data, called “blocks”, are added to the ledger in a chronological fashion, forming a “chain.” These blocks include things like date, time, dollar amount, and (in some cases) the public addresses of the sender and the receiver.The computers responsible for upholding a blockchain network are called “nodes.” These nodes carry out the duties necessary to confirm the transactions and add them to the ledger. In exchange for their work, the nodes receive rewards in the form of crypto tokens.By storing data via a peer-to-peer network (P2P), blockchain controls for a wide range of risks that are traditionally inherent with data being held centrally.Of note, P2P blockchain networks lack centralized points of vulnerability. Consequently, hackers cannot exploit these networks via normalized means nor does the network possess a central failure point.In order to hack or alter a blockchain’s ledger, more than half of the nodes must be compromised. Looking ahead, blockchain technology is an area of extensive research across multiple industries, including financial services and payments, among others.
Read this Term
. But, it also hints at something fascinating about NFTs, which is that they act as social tokens, unlocking network membership.

This is a critical difference between NFTs and traditional art and collectibles. Don’t forget that the entire online world is a web of interacting networks, and that NFTs are new, native collectibles in a nascent and unfolding web3 space that revolves around  connectivity 
Connectivity

Connectivity is defined as a term used for connecting devices to each other. In most cases, this refers to computer networking and more specifically includes bridges, routers, switches, gateways, and service as well as local networks. Connectivity can refer to simple forms, such as connecting a home or office to the internet or even connecting a digital camera to a computer or printer. Connectivity in FinanceConnectivity has taken on new meaning with the growth of fintech and Big Data collection. Today, financial institutions are often completely dependent on technology and data. This is more important than ever to improve, make transfers, lend, invest, and receive payments. Digital and mobile banking services also increase the level of customer convenience and accessibility. Blockchain assists with transactions, artificial intelligence helps with making smart investments, and multifactor authentication protects sensitive financial data. A blockchain is a form of connectivity, while connectivity is key to fintech disruption. Financial businesses need lightning-fast, low-latency, and secure networks to meet the challenges of fintech. A well-designed fiber-optic network offers exceptional connectivity. The superior connectivity provided by an enterprise-level fiber-optic network improves customer satisfaction, bolsters a financial organization’s reputation, and enables digital transformation through fintech. Today, connectivity providers are adapting financial markets by accelerating speedy networks such as 5G and alternatives. Connectivity also bridges brokers with liquidity providers to get fast trade execution. In this scenario, brokers can source liquidity from a single or multiple source, thereby delivering to their clients enough market depth for their orders to get filled. The main characteristic of liquidity is its depth, which will determine how quickly and how big of an order can be executed via the trading platform.

Connectivity is defined as a term used for connecting devices to each other. In most cases, this refers to computer networking and more specifically includes bridges, routers, switches, gateways, and service as well as local networks. Connectivity can refer to simple forms, such as connecting a home or office to the internet or even connecting a digital camera to a computer or printer. Connectivity in FinanceConnectivity has taken on new meaning with the growth of fintech and Big Data collection. Today, financial institutions are often completely dependent on technology and data. This is more important than ever to improve, make transfers, lend, invest, and receive payments. Digital and mobile banking services also increase the level of customer convenience and accessibility. Blockchain assists with transactions, artificial intelligence helps with making smart investments, and multifactor authentication protects sensitive financial data. A blockchain is a form of connectivity, while connectivity is key to fintech disruption. Financial businesses need lightning-fast, low-latency, and secure networks to meet the challenges of fintech. A well-designed fiber-optic network offers exceptional connectivity. The superior connectivity provided by an enterprise-level fiber-optic network improves customer satisfaction, bolsters a financial organization’s reputation, and enables digital transformation through fintech. Today, connectivity providers are adapting financial markets by accelerating speedy networks such as 5G and alternatives. Connectivity also bridges brokers with liquidity providers to get fast trade execution. In this scenario, brokers can source liquidity from a single or multiple source, thereby delivering to their clients enough market depth for their orders to get filled. The main characteristic of liquidity is its depth, which will determine how quickly and how big of an order can be executed via the trading platform.
Read this Term
and digital ownership.

We have networks within networks, connected to other networks, housing further networks, and NFTs can act simultaneously as digital keys, tradable currency and identity markers.

Admittedly, this can sound a little abstract and undefined, but that is to be expected when something is in its early stages, exists virtually, and when even the builders themselves can’t be certain where it is all leading.

Essentially though, to get a handle on what NFTs can do, and where their value comes from, this model is key. That is, a model of evolving communities based around tradable passes, that can be bought into and sold out of, and which are in flux as to what they will create and where they are heading.

Returning to that initial question, what’s the next BAYC? You can, and should, look at the images being sold, but it’s necessary also to be cognizant of the connections and communities that are linking up and expanding beneath them.

Or in more NFT-friendly terms, before you commit yourself and buy in, don’t forget to visit the Discord for a vibe check.

When exploring NFTs, it’s natural to look at Bored Ape Yacht Club (BAYC), with its explosive success and over 110 ETH floor price, and ask, what’s the next BAYC?

To which there’s an easy reply: There is no next BAYC.

BAYC is BAYC.

But, if we look beyond just the JPEGs and recognize that BAYC’s value is coming through the creation of some kind of web3 social network, then we can ask a more useful question: what other significant web3 social networks might emerge?

This question hints at the reasons why people are buying NFTs, as among observers who aren’t yet involved, there can be confusion about what it is that traders and collectors are actually paying for.

Trading JPEGs?

At the most basic level, an NFT is simply a token that (in most cases) links to a file. Are people trading JPEGs? Yes, in a sense, although you could make it all sound even more bizarre by pointing out that they’re actually trading links to JPEGs.

Still, this isn’t too much of a stretch to make sense of. There are some hugely talented artists selling their work through NFTs, and the token you buy gives definitive proof of ownership of a digital asset. In the traditional art dealing world, provenance is critical, and NFTs actually provide a more secure form of provenance.

Viewed in this way, if someone still chooses to dismiss NFTs, then that seems like a personal choice. There are people who will never accept the technology, and that’s their decision or inclination, and is something that happens in any area of change.

However, it’s certainly valid to ask why buyers are paying these amounts (meaning ETH equivalents of many thousands, or even millions, of dollars), for these particular JPEGs (meaning some of the collections which don’t fit the usual criteria of high quality or valuable art).

Expensive Stickmen

An example would be the MFers collection. Take a look at it and what do you see? It’s a 10,000 piece collection of stick figures, all in identical positions, roughly colored in with bright colors. Each asset is distinguished by its colors and accessories (headphones, sunglasses, watches, and so on), and every picture could have been drawn by, basically, anyone who can do stick figures.

And yet, currently, you can’t acquire one for less than 3.29 ETH (around $10,000), and many have sold for much higher sums.

To be clear, the “anyone could make that” criticism is nothing new, and you’ll hear it thrown at modern art all the time. The usual response in defense is something along the lines of, “yes, but anyone didn’t make it, this person did.”

With NFTs though, there are factors at play that aren’t present in traditional art, meaning it is worth addressing such criticism.

Digital keys

On the one hand, NFTs involve simple speculation, profit motives, and a curiously distorted Veblen effect. Veblen goods are high quality, luxury items for which demand increases as the price increases. The more expensive they are, the more desirable they become.

The strange aspect of this phenomenon when applied to some, but certainly not all, NFT collections is that the goods in question stretch the definition of what constitutes a high-quality luxury item, and neither do they appear to be attempting any kind of artistic, conceptual messaging.

And, this is where we come to a distinctive factor that has been overlooked by critics of NFTs. The token part of non-fungible token is crucial. Literally, this is a technical meaning: it’s a token on a  blockchain 
Blockchain

Blockchain comprises a digital network of blocks with a comprehensive ledger of transactions made in a cryptocurrency such as Bitcoin or other altcoins.One of the signature features of blockchain is that it is maintained across more than one computer. The ledger can be public or private (permissioned.) In this sense, blockchain is immune to the manipulation of data making it not only open but verifiable. Because a blockchain is stored across a network of computers, it is very difficult to tamper with. The Evolution of BlockchainBlockchain was originally invented by an individual or group of people under the name of Satoshi Nakamoto in 2008. The purpose of blockchain was originally to serve as the public transaction ledger of Bitcoin, the world’s first cryptocurrency.In particular, bundles of transaction data, called “blocks”, are added to the ledger in a chronological fashion, forming a “chain.” These blocks include things like date, time, dollar amount, and (in some cases) the public addresses of the sender and the receiver.The computers responsible for upholding a blockchain network are called “nodes.” These nodes carry out the duties necessary to confirm the transactions and add them to the ledger. In exchange for their work, the nodes receive rewards in the form of crypto tokens.By storing data via a peer-to-peer network (P2P), blockchain controls for a wide range of risks that are traditionally inherent with data being held centrally.Of note, P2P blockchain networks lack centralized points of vulnerability. Consequently, hackers cannot exploit these networks via normalized means nor does the network possess a central failure point.In order to hack or alter a blockchain’s ledger, more than half of the nodes must be compromised. Looking ahead, blockchain technology is an area of extensive research across multiple industries, including financial services and payments, among others.

Blockchain comprises a digital network of blocks with a comprehensive ledger of transactions made in a cryptocurrency such as Bitcoin or other altcoins.One of the signature features of blockchain is that it is maintained across more than one computer. The ledger can be public or private (permissioned.) In this sense, blockchain is immune to the manipulation of data making it not only open but verifiable. Because a blockchain is stored across a network of computers, it is very difficult to tamper with. The Evolution of BlockchainBlockchain was originally invented by an individual or group of people under the name of Satoshi Nakamoto in 2008. The purpose of blockchain was originally to serve as the public transaction ledger of Bitcoin, the world’s first cryptocurrency.In particular, bundles of transaction data, called “blocks”, are added to the ledger in a chronological fashion, forming a “chain.” These blocks include things like date, time, dollar amount, and (in some cases) the public addresses of the sender and the receiver.The computers responsible for upholding a blockchain network are called “nodes.” These nodes carry out the duties necessary to confirm the transactions and add them to the ledger. In exchange for their work, the nodes receive rewards in the form of crypto tokens.By storing data via a peer-to-peer network (P2P), blockchain controls for a wide range of risks that are traditionally inherent with data being held centrally.Of note, P2P blockchain networks lack centralized points of vulnerability. Consequently, hackers cannot exploit these networks via normalized means nor does the network possess a central failure point.In order to hack or alter a blockchain’s ledger, more than half of the nodes must be compromised. Looking ahead, blockchain technology is an area of extensive research across multiple industries, including financial services and payments, among others.
Read this Term
. But, it also hints at something fascinating about NFTs, which is that they act as social tokens, unlocking network membership.

This is a critical difference between NFTs and traditional art and collectibles. Don’t forget that the entire online world is a web of interacting networks, and that NFTs are new, native collectibles in a nascent and unfolding web3 space that revolves around  connectivity 
Connectivity

Connectivity is defined as a term used for connecting devices to each other. In most cases, this refers to computer networking and more specifically includes bridges, routers, switches, gateways, and service as well as local networks. Connectivity can refer to simple forms, such as connecting a home or office to the internet or even connecting a digital camera to a computer or printer. Connectivity in FinanceConnectivity has taken on new meaning with the growth of fintech and Big Data collection. Today, financial institutions are often completely dependent on technology and data. This is more important than ever to improve, make transfers, lend, invest, and receive payments. Digital and mobile banking services also increase the level of customer convenience and accessibility. Blockchain assists with transactions, artificial intelligence helps with making smart investments, and multifactor authentication protects sensitive financial data. A blockchain is a form of connectivity, while connectivity is key to fintech disruption. Financial businesses need lightning-fast, low-latency, and secure networks to meet the challenges of fintech. A well-designed fiber-optic network offers exceptional connectivity. The superior connectivity provided by an enterprise-level fiber-optic network improves customer satisfaction, bolsters a financial organization’s reputation, and enables digital transformation through fintech. Today, connectivity providers are adapting financial markets by accelerating speedy networks such as 5G and alternatives. Connectivity also bridges brokers with liquidity providers to get fast trade execution. In this scenario, brokers can source liquidity from a single or multiple source, thereby delivering to their clients enough market depth for their orders to get filled. The main characteristic of liquidity is its depth, which will determine how quickly and how big of an order can be executed via the trading platform.

Connectivity is defined as a term used for connecting devices to each other. In most cases, this refers to computer networking and more specifically includes bridges, routers, switches, gateways, and service as well as local networks. Connectivity can refer to simple forms, such as connecting a home or office to the internet or even connecting a digital camera to a computer or printer. Connectivity in FinanceConnectivity has taken on new meaning with the growth of fintech and Big Data collection. Today, financial institutions are often completely dependent on technology and data. This is more important than ever to improve, make transfers, lend, invest, and receive payments. Digital and mobile banking services also increase the level of customer convenience and accessibility. Blockchain assists with transactions, artificial intelligence helps with making smart investments, and multifactor authentication protects sensitive financial data. A blockchain is a form of connectivity, while connectivity is key to fintech disruption. Financial businesses need lightning-fast, low-latency, and secure networks to meet the challenges of fintech. A well-designed fiber-optic network offers exceptional connectivity. The superior connectivity provided by an enterprise-level fiber-optic network improves customer satisfaction, bolsters a financial organization’s reputation, and enables digital transformation through fintech. Today, connectivity providers are adapting financial markets by accelerating speedy networks such as 5G and alternatives. Connectivity also bridges brokers with liquidity providers to get fast trade execution. In this scenario, brokers can source liquidity from a single or multiple source, thereby delivering to their clients enough market depth for their orders to get filled. The main characteristic of liquidity is its depth, which will determine how quickly and how big of an order can be executed via the trading platform.
Read this Term
and digital ownership.

We have networks within networks, connected to other networks, housing further networks, and NFTs can act simultaneously as digital keys, tradable currency and identity markers.

Admittedly, this can sound a little abstract and undefined, but that is to be expected when something is in its early stages, exists virtually, and when even the builders themselves can’t be certain where it is all leading.

Essentially though, to get a handle on what NFTs can do, and where their value comes from, this model is key. That is, a model of evolving communities based around tradable passes, that can be bought into and sold out of, and which are in flux as to what they will create and where they are heading.

Returning to that initial question, what’s the next BAYC? You can, and should, look at the images being sold, but it’s necessary also to be cognizant of the connections and communities that are linking up and expanding beneath them.

Or in more NFT-friendly terms, before you commit yourself and buy in, don’t forget to visit the Discord for a vibe check.

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