The answer is highly variable, according to server config.
Let's answer question 1 first:
Does the server run 100 separate processes of php.exe simultaneously?
This depends on the way PHP is installed. If PHP is being run via CGI, then the answer is "Yes, each request calls a separate instance of PHP". If it's being run via an Apache module, then the answer is "No, each request starts a new PHP thread within the Apache executable".
Similar variations will exist for other web servers. Please note that for a Unix/Linux based operating system, running separate copies of the executable for each request is not necessarily a bad thing for performance; the core of the OS is designed such that in many cases, tasks are better done by a number of separate executables rather than one monolithic one.
However, no matter what you do about it, having large numbers of simultaneous requests will drain your server resources and lead to timeouts and errors for your users. This is why it is important for your PHP programs to finish running as quickly as possible. Do not write PHP programs for web consumption that are slow to run; if you're likely to have a lot of traffic, you need to test for performance as much as you do for functionality. Having your programs exit quickly will dramatically reduce the likelihood of having a significant number of simultaneous requests, which will obviously have a big impact on your site's performance.
Now your second question:
Does it re-interpret the page.php 100 times?
For a standard PHP installation, the answer here is "Yes it does, and yes it does have a performance impact."
However, PHP provides several Caching solutions that are designed specifically to mitigate this. The main options are APC and the Zend Cache, either of which can be installed as standard modules. Using these modules will mean that PHP caches the interpreted code, so it can be run much faster for subsequent calls.
The Zend Cache will be included as part of the standard PHP installation as of the forthcoming PHP 5.5 release.