I am a software developer and I would like to learn how to do create programs for quantum computers. What are the steps I should take?
Here are the steps you can take to learn how to create programs for quantum computers:

1. Learn the fundamentals of quantum computing: Study the basic concepts of quantum mechanics, quantum computing theory, and quantum algorithms.

2. Familiarize yourself with quantum programming languages: Some popular quantum programming languages are Q#, Quil, PyQuil, and ProjectQ. Choose one and start practicing by solving simple quantum computing problems.

3. Study existing quantum algorithms: Get an understanding of the most common quantum algorithms, such as Shor's algorithm, Grover's algorithm, and the quantum Fourier transform.

4. Join a quantum computing community: Participate in online forums and communities to stay updated on the latest developments in the field and connect with other quantum computing enthusiasts.

5. Practice on quantum simulators: Many quantum computing simulators are available online, such as the IBM Quantum Experience, that can be used to run and test quantum programs.

6. Get hands-on experience with real quantum computers: Some companies offer access to real quantum computers for researchers and developers to experiment with.

7. Keep learning and experimenting: The field of quantum computing is constantly evolving, so stay up-to-date with the latest developments by reading research papers and participating in workshops and conferences.
I like Python's syntax, which of the languages you named are the most similar to that?
There are several quantum programming languages that are similar to Python in syntax, including:

Qiskit: An open-source framework for quantum computing developed by IBM. Qiskit uses Python for its programming interface and supports a wide range of quantum computing algorithms and quantum circuits.

ProjectQ: An open-source framework for quantum computing that provides a high-level interface for quantum programming. ProjectQ supports a syntax that is similar to Python and allows developers to write quantum algorithms in a natural and intuitive way.

Microsoft's Quantum Development Kit: A suite of tools for quantum computing, including a quantum programming language that is similar in syntax to Python. The Microsoft Quantum Development Kit provides an easy-to-use interface for quantum programming, and it includes a variety of tools for quantum simulation and debugging.

PyQuil: An open-source library for quantum programming that is based on Python and provides a high-level interface for quantum computing. PyQuil supports a syntax that is similar to Python and makes it easy to write and test quantum algorithms.

Each of these quantum programming languages provides a unique set of tools and features for quantum computing, and it's important to choose the right one based on your specific needs and the type of quantum applications you want to build.