Sure. This is the beauty of modern computers: code is data.
In the early days of computers back in the 1940s, "programming" a computer meant hooking up wires, reconfiguring physical hardware. A ground-breaking advance was the "von Neuman machine", where a program is stored as data, and the computer then reads that data and takes different action based on the content of that data.
Today all programs are manipulated as data. When you write a program in, say, C#, that's just a bunch of text strings. Then you run a "compiler" to read those text strings and spit out machine language, probably in a language that can be understood by the processor where you ran the compiler. But not necessarily: there are "cross compilers", where you compile a program on machine X to run on machine Y. (This is especially useful when a new computer is invented. Otherwise, what language would we use to write a compiler for new computer Y, when there are not yet any compilers that run on Y?)
You surely regularly copy program files from one computer to another or from one folder to another on the same computer. You get directory listings that include program files. Etc. You treat them as data.
So today there are basically three types of languages: compiled languages, interpreted languages, and virtual machine languages.
With a compiled language, the program you type in is translated to machine code that can be run directly.
With an interpreted language, like some BASICs, an interpreter reads your source code and figures out what to do with it on the fly.
With a virtual machine language, like Java, your program is translated into "byte code". This byte code is then read and processed by the "virtual machine". Basically, byte code is like machine language for an imaginary computer: there isn't (necessarily) a computer that can execute the byte code directly, but we write an interpreter that processes it and gives the same results as if there was such a "real" machine language.
One advantage of byte code, and one of the primary selling points of Java when it was first introduced, is that once you implement a virtual machine on a computer, it can then run any program written in that language. You don't even need to recompile. You just run it. So if tomorrow someone invents a Fwacbar 2020 computer with some totally new instruction set that is nothing like Pentium or any existing CPU, and they write a Java Virtual Machine for that computer, they can run any Java program on it. The people who wrote the Java program don't need to recompile for the new computer. They don't have to make their source code available to anyone. They don't even have to know that the new computer exists. Their Java program will just work on the new computer. (Assuming the JVM doesn't have bugs, of course, but you could say that of anything.) The Java people marketed with the slogan "write once, run anywhere". I once wrote a Java program on Windows and also tested it on Linux. But someone with a Mac bought a copy and he was able to run it on his Mac with just a little help from me on getting it installed properly.