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velocity and pressure have inverse relation. when velocity increases then pressure at that point decrease and vice versa.
average acceleration is the average of the acceleration of a body in its entire motion where as instantaneous acceleration is the rate of change of velocity at an instant. it may be a function of time or velocity or displacement.
Average Velocity = Total Distance / Total Time
You can find Dynamic pressure by using bernoulli's equation. P = (density * velocity^2)/2
The term "velocity", as used in physics, DOES have an associated direction. Most derived terms, such as "average velocity", also do.
The velocity does not depend on ther shower head, however it does depend on the cold mains pressure, a higher pressure will result in a higher velocity, and visa versa.
To find the average velocity of a projectile, use V = D/T (Velocity equals Displacement over Time).
velocity and pressure have inverse relation. when velocity increases then pressure at that point decrease and vice versa.
3.16:1
For the instantaneous value of average velocity, average speed and average velocity are equal.
The answer depends on what variables the graph shows.
Velocity is speed and its direction. Average velocity is average speed and its direction.
average acceleration is the average of the acceleration of a body in its entire motion where as instantaneous acceleration is the rate of change of velocity at an instant. it may be a function of time or velocity or displacement.
Average Velocity = Total Distance / Total Time
You can find Dynamic pressure by using bernoulli's equation. P = (density * velocity^2)/2
Always.
Average velocity is def.ined as the ratio of total displacement to total time taken.