The spring has maximum velocity when it is at its equilibrium position or at maximum compression or extension. This is where the spring has stored the most potential energy, which is then converted into kinetic energy, resulting in the highest velocity.
The velocity of a mass on a spring is at its maximum value when the mass passes through its equilibrium position.
In the rest position of a spring, the potential energy stored in the spring is at its maximum. This potential energy is converted to kinetic energy as the spring is compressed or stretched, resulting in maximum velocity at the rest position.
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.
The spring constant (K) is 25 N/M, Êthe maximum velocity is Êgiven ÊbyÊ AW where ÊA is Êthe amplitude (0.32 m) and w is given by the formula (k/m)^0.5. ÊTherefore the maximum velocity is Ê2.4 m/s (0.32 x (25/0.45)^0.5).
The maximum velocity of photoelectrons is determined by the energy of the incident photons in the photoelectric effect. The higher the energy of the photons, the higher the maximum velocity of the emitted photoelectrons.
The velocity of a mass on a spring is at its maximum value when the mass passes through its equilibrium position.
In the rest position of a spring, the potential energy stored in the spring is at its maximum. This potential energy is converted to kinetic energy as the spring is compressed or stretched, resulting in maximum velocity at the rest position.
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.
The spring constant (K) is 25 N/M, Êthe maximum velocity is Êgiven ÊbyÊ AW where ÊA is Êthe amplitude (0.32 m) and w is given by the formula (k/m)^0.5. ÊTherefore the maximum velocity is Ê2.4 m/s (0.32 x (25/0.45)^0.5).
When a pendulum reaches its maximum elongation the velocity is zero and the acceleration is maximum
The maximum velocity of photoelectrons is determined by the energy of the incident photons in the photoelectric effect. The higher the energy of the photons, the higher the maximum velocity of the emitted photoelectrons.
The condition for maximum velocity is acceleration equals zero; dv/dt = a= o.
Maximum Velocity - 2003 is rated/received certificates of: USA:PG-13
A pendulum attains maximum velocity at the lowest point of its swing, when its potential energy is at a minimum and its kinetic energy is at a maximum.
In the case of an object thrown, batted, teed off, or dropped, its acceleration at the instant of its maximum velocity is 9.8 meters per second2 downward.
When an object is moving at its maximum velocity, it is simply referred to as moving at "maximum speed." This means that it is traveling as fast as it can and cannot go any faster.
0 velocity