All of the forces exerted by the individual molecules in a fluid add together to create the pressure exerted by the fluid ... The End :)

All of the forces exerted by the individual molecules in a fluid add together to make up the pressure exerted by the fluid

Atmospheric pressure; the fluid's own weight; anything else that might push against the fluid.

area

All of the forces exerted by the individual particles in a fluid combine to make up the pressure exerted by the fluid.

in a fluid,all of the forces exerted by the individaul particles combine to make up the pressure exerted by the fluid.

What causes the pressure exerted by gas molecules on their container? idk

Bernoulli's principle states that as the speed of a moving fluid increases, the pressure exerted by the fluid decreases.

The main difference of static pressure and dynamic pressure is:- static pressure is exerted by fluid at rest but dynamic pressure is pressure exerted by fluid in motion.

The main difference of static pressure and dynamic pressure is:- static pressure is exerted by fluid at rest but dynamic pressure is pressure exerted by fluid in motion.

A fluid exerts force isotropically due to pressure. This means the fluid 'pushes' in all directions simultaneouslyYes, fluid pressure is always exerted in all possible directions.

as the velocity of a fluid pressure exerted by that fluid decreases

air

Buoyant force is what supports objects in fluids. This is when fluid causes upward pressure to be exerted on the object.

A= actually its fluid pressure and fluid pressure is any kind of fluid(gas,liquid,air,are all fluid. Fluid Pressure is any fluid that is exerted on the surface, to calculate fluid pressure divide the force by the area over which it is applied.

All directions

Bernoulli's Principle

The pressure exerted by a fluid is reduced as its speed increases.

Bernoulli's Principle

Bernoulli's Principle.

bernoullis principle

No. It is not.

Bernoulli's principle

Bernoulli's principle.

Hydrostatic pressure. It's the pressure exerted by a fluid at equilibrium due to the force of gravity.