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Initial displacement has no effect on the period of oscillation. The period T = 2(pi)sqrt(mass/spring constant)
center of oscillation means the point at the pendulum which oscillate by making higher displacement through it than other points.
Amplitude, which is defined as the maximum displacement of a wave from it's centre of oscillation.
If you're thinking about a pendulum but not mentioning it, then no, it doesn't
Average Velocity
The amplitude.
Initial displacement has no effect on the period of oscillation. The period T = 2(pi)sqrt(mass/spring constant)
center of oscillation means the point at the pendulum which oscillate by making higher displacement through it than other points.
Amplitude is the maximum displacement of an oscillation from it's rest position.
Amplitude, which is defined as the maximum displacement of a wave from it's centre of oscillation.
If you're thinking about a pendulum but not mentioning it, then no, it doesn't
formula for displacement: A=(pi)r^2 A is Area Pi is 3.14 and R is the radius of the cylinder, this is the piston in Square inches. then multiply that by the distance the piston travels, that is the displacement of one cylinder to find total engine displacement multiply that by how many pistons are in the engine to get total engine displacement
there is a variable component of motion in the direction at right angles to the direction of propagation of the wave.acceleration is directly proportional to displacement from the direction of propagation of the wave, andthe direction of acceleration is opposite to that of the displacement.
taking one cylinder , area of bore * length of stroke gives displacement (or volume) of one cylinder , then * number of cylinders = total engine displacement for rough power calculation you can research the equation PLAN/33000
The shortest distance is displacement and total distance is length.
the object's displacement.
Average Velocity