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For a mass hanging from a spring the maximum displacement the spring is stretched or compressed from its equilibrium position is the systems?
The amplitude of the oscillation, which is the maximum displacement from the equilibrium position, is determined by the mass of the hanging object and the spring constant. The maximum displacement occurs when the object is released from its initial position and the system is in simple harmonic motion.
When are the displacement velocity and acceleration equal to zero for the motion of a mass on a spring?
Displacement and acceleration are zero at the instant the mass passes through its "rest" position ... the place where it sits motionless when it's not bouncing. Velocity is zero at the extremes of the bounce ... where the expansion and compression of the spring are maximum, and the mass reverses its direction of motion.
Does the time period of oscillation depends on the displacement from the equilibrium position?
No, the time period of oscillation does not depend on the displacement from the equilibrium position. The time period is only affected by the mass and stiffness of the system and is constant for a given system. The amplitude of oscillation does affect the maximum displacement from the equilibrium position.
Does the time period of oscillation of spring mass system depends on the displacement from the equilibrium position?
No, the time period of oscillation of a spring-mass system does not depend on the displacement from the equilibrium position. The period of oscillation is determined by the mass of the object and the stiffness of the spring, but not the displacement.
When is the velocity of a mass on a spring at its maximum value?
The velocity of a mass on a spring is at its maximum value when the mass passes through its equilibrium position.
For a mass hanging from a spring the maximum displacement the spring is stretched or compressed from its equilibrium position is the systems?
The amplitude of the oscillation, which is the maximum displacement from the equilibrium position, is determined by the mass of the hanging object and the spring constant. The maximum displacement occurs when the object is released from its initial position and the system is in simple harmonic motion.
When are the displacement velocity and acceleration equal to zero for the motion of a mass on a spring?
Displacement and acceleration are zero at the instant the mass passes through its "rest" position ... the place where it sits motionless when it's not bouncing. Velocity is zero at the extremes of the bounce ... where the expansion and compression of the spring are maximum, and the mass reverses its direction of motion.
Does the time period of oscillation depends on the displacement from the equilibrium position?
No, the time period of oscillation does not depend on the displacement from the equilibrium position. The time period is only affected by the mass and stiffness of the system and is constant for a given system. The amplitude of oscillation does affect the maximum displacement from the equilibrium position.
Does the time period of oscillation of spring mass system depends on the displacement from the equilibrium position?
No, the time period of oscillation of a spring-mass system does not depend on the displacement from the equilibrium position. The period of oscillation is determined by the mass of the object and the stiffness of the spring, but not the displacement.
When is the velocity of a mass on a spring at its maximum value?
The velocity of a mass on a spring is at its maximum value when the mass passes through its equilibrium position.
Why can a mass spring system oscillate with simple harmonic motion when compressed?
A mass-spring system can oscillate with simple harmonic motion when compressed because the restoring force from the spring is directly proportional to the displacement of the mass from its equilibrium position. This results in a periodic back-and-forth motion of the mass around the equilibrium point.
How does a pendulums period vary with the length of its mass With Gravitational acceleration?
The length of the pendulum is measured from the pendulum's point of suspension to the center of mass of its bob. Its amplitude is the string's angular displacement from its vertical or its equilibrium position.
What is the equation for a vertical spring-mass system?
The equation for a vertical spring-mass system is given by: m a -k x where: m mass of the object a acceleration of the object k spring constant x displacement from the equilibrium position
What is the amplitude when you are given the mass and period and position of the oscillator and the velocity of the oscillator?
amplitude is the maximum displacement right from the equilibrium position. It does not depend on the mass, period or velocity. Recall displacement at any instant t is y = A sin 2 pi f t or A sin 2 pi t/T f = frequency and T - time period.
How do the different forms of potential energy depend on an objects position?
Potential energy of a body with certain mass is proportional to the vertical position of the body with respect to the ground. Potential energy of the string is proportional to second degree of displacement from the point of equilibrium.
If the initial displacement from equilibrium amplitude is changed does the period of oscillation change?
No, the period of oscillation remains constant regardless of the initial displacement from equilibrium. The period is solely dependent on the characteristics of the system, such as the mass and spring constant.
What is effective action?
The mass action effect is the shift in the position of equilibrium through the addition or removal of a participant in the equilibrium.
