- How does Bernoulli’s principal work?
- What things can affect the outcome of Bernoulli’s principal?
- Specifically, how does mass affect the pull of objects using Bernoulli’s principal?
Specifics on Bernoulli’s Principal
Moderators: kgudger, bfinio, MadelineB, Moderators
Re: Specifics on Bernoulli’s Principal
Hi Dennies,
Bernoulli's Principle is basically conservation of mechanical energy. The three components are derived from work (Fx), kinetic energy (1/2 mv^2), and gravitational potential energy (mgh). Basically, you can divide those expressions by the volume to get Bernoulli's Principle.
Friction is one of the main forces that affect the outcome of Bernoulli's principle: greater friction means more energy lost, so the actual scenario might vary from the theoretical scenario.
I'm not sure what you're asking for in the third part. Could you rephrase it? Bernoulli's principle doesn't deal with the pull of objects.
Hope this helps,
IlI
Bernoulli's Principle is basically conservation of mechanical energy. The three components are derived from work (Fx), kinetic energy (1/2 mv^2), and gravitational potential energy (mgh). Basically, you can divide those expressions by the volume to get Bernoulli's Principle.
Friction is one of the main forces that affect the outcome of Bernoulli's principle: greater friction means more energy lost, so the actual scenario might vary from the theoretical scenario.
I'm not sure what you're asking for in the third part. Could you rephrase it? Bernoulli's principle doesn't deal with the pull of objects.
Hope this helps,
IlI