It can be difficult to understand the concept of Bitcoin and the way it functions. In fact, understanding the advantages of bitcash over bitcoin may be hard to decipher, and that’s the point of this article. So let’s get started.

First of all bitcoin is basically a coded commodity that can be obtained by the way the fiat money has been mined or traded. The Bitcoin blockchain was hard forked or split on August 1st, 2017. Bitcoin (BTC) – the Bitcoin original, and Bitcoin Cash (BCH) – split from the original Bitcoin, appeared throughout the aftermath of this fork.

While Bitcoin Cash was not Bitcoin’s first split, it was one of the most notable, as it quickly grew into one of the top market capitalization crypto assets(Instruction of the asset multiplied by the price of the asset). A fork is created when a blockchain original code is modified, but only a few nodes (computers) are modified on the blockchain.

The original blockchain is the same (same as Bitcoin) and the revamped nodes are removed from the initial blockchain to build the current blockchain (such as Bitcoin Cash), and the coins on the network are different and special. It is very similar to Bitcoin (BTC) in many ways, but Bitcoin Cash has some technical differences which have a big effect. In this article we will explore the most popular hard fork of bitcoin – Bitcoin Cash.



Also recognized as the “scalability” is a way of figuring out how to make the blockchain technology for commercial use suitable for mass storage.  One of the principal ways to achieve scalability is by increasing the block size of Bitcoin. New transactions that periodically connect to the blockchain are stored in a new block in a blockchain network. This is achieved through the “mining” phase for BTC and BCH, where miners use their computer power to overcome complex mathematical equations.

Minerals are the first to overcome their equations and to win the right to add the blockchain to the new node. In exchange, they receive a block reward for helping validate new transactions in the form of BTC or BCH. There are just as many transactions that can be added to each new block with BTC’s blocking size about 1 megabyte.

High transaction volume intervals can build a long line of users waiting to access a new block of transactions. The only way to handle this as a user is to wait until your business passes through or pay a high transaction fee to prioritize and bring miners before others into a chain.

Larger blocks often mean that fewer users will become “nodes” or machines or servers to store and support the blockchain to another person. It is because bigger blocks take up more room on the hard disk that saves node operators more money.



High transaction fees are one of the key criticisms of BTC’s attempts to meet rising demand. Bitcoin’s cash transfers are cheaper (approximately $0.20 per transaction), and you can save money by making BCH transfers over BTC. BCH now has a transaction rate smaller than BTC’s average ($0.0019 for BCH vs $0.39 for BTC).



BCH can handle more transactions per second. BCH blocks can handle more transactions concurrently, which ensures that transactions will fit in a block more often without having to wait for the next. Nevertheless, BCH is not used almost as often as BTC and, therefore, the traffic of the network is not checked to a comparable degree.

BCH is, in any case, is leading  BTC in its block height-a simple sign that BCH is mining blocks and verifying transactions faster. The transmission times for BCH are quicker. You also don’t have to wait 10 minutes for a Bitcoin transaction to be checked. More transactions can be done by BCH per second. It helps more individuals to use BCH concurrently than BTC.