Are you able to describe the main properties of the solidity programming language. Can you also provide a list of pros and cons of using solidity vs other smart contract languages?
Solidity is a programming language specifically designed for implementing smart contracts on the Ethereum blockchain. It was developed in 2014 by the Ethereum Foundation and has since become the most widely used language for writing smart contracts on the Ethereum platform. Here are some of the main properties of Solidity:

1. High-level language: Solidity is a high-level language, meaning that it allows developers to write code in a way that is more abstract and closer to the natural language of the developer. This makes it easier for programmers to write smart contracts without having to master the intricacies of lower-level blockchain protocols like the Ethereum Virtual Machine (EVM).
2. Smart contract development: Solidity is designed specifically for writing smart contracts on the Ethereum blockchain. Solidity provides a set of instructions that can be used to define and execute smart contracts in a secure and decentralized manner. This makes it an ideal choice for developers looking to create smart contracts for decentralized applications (dApps) or other blockchain-based applications.
3. Cross-platform compatibility: Solidity is designed to be compatible with various platforms and operating systems, including Windows, Linux, and macOS. This makes it easy for developers to deploy and execute smart contracts across different platforms without having to make major changes to their code.

As for the pros and cons of using Solidity versus other smart contract languages, here are a few to consider:

Pros:

1. Well-established: Solidity is the most widely used language for writing smart contracts on the Ethereum blockchain, with a large community of developers and tools available for writing and deploying smart contracts. This makes it easier for developers to find resources and support when learning and using Solidity.
2. High-level language: Solidity's high-level nature makes it easier for developers to write smart contracts without having to master complex blockchain protocols. This can speed up development time and reduce the risk of errors.
3. Secure and battle-tested: Solidity has been around for several years and has been used to develop some of the most successful and high-profile smart contracts on the Ethereum platform. This has helped to establish its reputation as a reliable and secure language for developing smart contracts.

Cons:

1. Limited compatibility: Solidity can only be used to write smart contracts on the Ethereum blockchain. This means that developers may have to rely on additional technologies or coding languages if they want to develop smart contracts in other platforms.
2. Learning curve: Solidity has a steep learning curve, and new programmers may find it challenging to learn the language from scratch. This can make it more difficult to get started with Solidity and may require more time and effort to become proficient in the language.
3. Performance concerns: Solidity is not as optimized for performance as other programming languages, which can make it less efficient for certain types of smart contracts. This can be particularly true for contracts that require a lot of computational resources or need to process large amounts of data in real-time.

In summary, Solidity is a popular and well-established language for writing smart contracts on the Ethereum blockchain, with a large community of developers and resources available for learning and using the language. However, it is limited to only writing smart contracts on Ethereum and may require additional time and effort to learn and use effectively. Developers looking to write smart contracts on other platforms may need to consider alternative languages, while those who require more performance-optimized contracts may also need to look elsewhere.
Can you provide an example of how I can use Solidity to create a basic smart contract for selling an electric razor scooter?
Below is an example of a basic smart contract for selling an electric razor scooter written in Solidity:

```solidity
pragma solidity ^0.5.16;

contract ElectricScooterSale {

address public seller;

address public buyer;

uint256 public price;

bool public sold;

event SaleConfirmed(address indexed buyer, uint256 price);

constructor(address _seller, uint256 _price) public {

seller = _seller;
price = _price;
sold = false;
}

function buyScooter() public payable {
require(!sold);
require(msg.value >= price);

buyer = msg.sender;
sold = true;
seller.transfer(msg.value);
emit SaleConfirmed(msg.sender, price);
}

}
```
to be frank i have heard name solidity programming language first time so i cannot tell anything about solidity programming language