Computer A doesn't actually become a "root CA". You need to create a root certificate, and then install it on the target computer.
It's not quite as simple as installing the root certificate on the target computer as different applications may use different certificate stores. For example, you need to install root certificates into both Firefox and Explorer.
You can then create "child" certificates - signed by the root certificate - and the target system will accept the child certificate as valid, because it has been signed by the trusted root certificate.
A certificate is just a way of validating someone's public key. The certificate contains both your public key in plain text, and your public key encrypted by the private key of the signer. To validate the public key published in the certificate, you decrypt the encrypted version of the public key - using the public key of the signer - and check that it's the same as the plain text version of the public key.
In a self-signed certificate, you encrypt your public key with your private key. So a self signed certificate is also a root certificate because there is no higher signing authority in the chain.
Intermediate certificates can also be used to sign other certificates. In this way certificates can be used to build a "chain of trust" back to some (at least theoretically) trusted root certificate.
Bruce Schneier has a reasonable description of this in his book "Applied Cryptography". And Peter Gutman has a more colourful description of certificates at this linky: