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Bernoulli (or Venturi) Effect examines the relationship between pressure and velocity. The equation is P + (1/2)(density)(v^2)= P + (1/2)(density)(v^2) so as pressure velocity increases, pressure will decrease and vice versa.
Wave velocity is the product of wavelength and frequency. ?In equation form:v = (lambda)(nu)
velocity = displacement / time taken
Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
Momentum=mass*velocity
The relationship between pressure and volume (apex)
Daniel Bernoulli is often referred to as the father of hydrodynamics. He made significant contributions to the understanding of fluid dynamics and developed Bernoulli's principle, which describes the relationship between pressure and velocity in a fluid.
With the increase in flow rate the velocity of the fluid increases. and with the increase in velocity the pressure decreases, because there will be pressure drop (Refer Bernoulli's Theorm). So with increase in Flow rate the pressure decreases.
Bernoulli (or Venturi) Effect examines the relationship between pressure and velocity. The equation is P + (1/2)(density)(v^2)= P + (1/2)(density)(v^2) so as pressure velocity increases, pressure will decrease and vice versa.
Wave velocity is the product of wavelength and frequency. ?In equation form:v = (lambda)(nu)
velocity = displacement / time taken
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Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
There are a number of different formulas for final velocity. Each one describes the relationship between final velocity and other kinematic quantities, such as initial velocity, initial and final position, acceleration, and time. Depending on what information you have, you would select the most appropriate and useful formula.
Acceleration is the rate at which velocity changes and the direction of the change.
Momentum=mass*velocity
The lighter the weight, the greater the initial velocity of shortening; inverse relationship.