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The time period remains the same because it depends on the length of the string and gravitational acceleration, not on the mass or material of the bob. Related Questions: Give an example of vibratory motion which is not simple harmonic motion. Give a reason for your selection. At the extreme position, velocity is zero but … Read more
The time period of a pendulum is given by T = 2π √(l/g) . If length is halved, the time period decreases by a factor of √2 , making it shorter. Related Questions: Give an example of vibratory motion which is not simple harmonic motion. Give a reason for your selection. At the extreme position, … Read more
on doubling the mass, acceleration is halved provided that the force remains constant. if the Force is constant and you double the mass, the acceleration is a/2. Related Questions: Give an example of vibratory motion which is not simple harmonic motion. Give a reason for your selection. At the extreme position, velocity is zero but acceleration … Read more
In SHM, acceleration is given by . At the extreme position, displacement is maximum, making acceleration maximum. Since velocity is the rate of change of displacement, it becomes zero at the turning points. Related Questions: Give an example of vibratory motion which is not simple harmonic motion. Give a reason for your selection. Simple harmonic … Read more
An example is the motion of a car engine’s piston. It is not simple harmonic because its acceleration is not proportional to its displacement and does not follow Hooke’s law. Related Questions: At the extreme position, velocity is zero but acceleration is maximum in simple harmonic motion. How can you theoretically explain it? What will … Read more