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Constant speed.
The period is the reciprocal of the frequencey. Just divide 1 / (frequency).
Constant Speed
Just remember that the period is the reciprocal of the frequency.
Yes, it can. Initially, an object will be accelerating downward (with an acceleration equal to g - f, where f is the force of air resistance). During this period, mass is constant but velocity is continually increasing, so momentum increases as well. However, because f is dependent on v (the speed of the object relative to the air), at a certain velocity, the force of air resistance will equal gravity, and the object will stop accelerating (this velocity is known as "terminal" velocity). At this point, the object will fall with constant speed, and momentum will remain constant.
Constant speed.
The period is the reciprocal of the frequencey. Just divide 1 / (frequency).
Just remember that the period is the reciprocal of the frequency.
Constant Speed
Just remember that the period is the reciprocal of the frequency.
Velocity = Displacement/Time =10.55m/11.31s = 0.932m/s Value of constant velocity is 0.932m/s.
Yes, it can. Initially, an object will be accelerating downward (with an acceleration equal to g - f, where f is the force of air resistance). During this period, mass is constant but velocity is continually increasing, so momentum increases as well. However, because f is dependent on v (the speed of the object relative to the air), at a certain velocity, the force of air resistance will equal gravity, and the object will stop accelerating (this velocity is known as "terminal" velocity). At this point, the object will fall with constant speed, and momentum will remain constant.
1/3 second is
5 HTZ
I am not sure how you would do that. However, it is relatively simple to set up an experiment to show that velocity (over a period of time) affects distance. Select an object whose velocity can be changed from one constant value to another. Alternatively, select a set of objects that can travel at different, but constant, velocities. Measure the distance travelled by each object in the chosen time period (or have a race).
The number of times a wave vibrates for a period of time (second).
A period of constant positive acceleration;a second period of zero acceleration; a third period of constant negative acceleration.