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What is the formula for the maximum acceleration of a simple harmonic oscillator?
The maximum acceleration of a simple harmonic oscillator can be calculated using the formula a_max = ω^2 * A, where ω is the angular frequency and A is the amplitude of the oscillation.
What is the displacement of simple harmonic when kinetic and potential energy are equal?
In a simple harmonic oscillator, kinetic energy and potential energy are equal at the amplitude of the motion. At this point, all the energy is in the form of kinetic energy, and the displacement is at its maximum value.
What is the period and frequency formula for a simple harmonic oscillator?
The period (T) and frequency (f) formula for a simple harmonic oscillator is: T 1 / f where T is the period in seconds and f is the frequency in hertz.
How can amplitude be measured?
Amplitude can be measured by calculating the maximum displacement of a wave from its equilibrium position. For example, in a simple harmonic oscillator, amplitude is measured as the distance from the equilibrium position to the maximum displacement of the oscillator. In a wave, amplitude can be measured as the height of the wave from the resting position to the peak.
How time period depends upon spring constant?
The time period of a simple harmonic oscillator is inversely proportional to the square root of the spring constant. This means that as the spring constant increases, the time period decreases. Mathematically, the equation for the time period of a simple harmonic oscillator is T = 2π√(m/k), where T is the time period, m is the mass attached to the spring, and k is the spring constant.
What is the formula for the maximum acceleration of a simple harmonic oscillator?
The maximum acceleration of a simple harmonic oscillator can be calculated using the formula a_max = ω^2 * A, where ω is the angular frequency and A is the amplitude of the oscillation.
How many times potential energy of a simple harmonic oscillator attains maximum value during one complete oscillation?
The potential energy of a simple harmonic oscillator reaches its maximum value twice during one complete oscillation. This occurs when the displacement of the oscillator is at its maximum and at its minimum amplitude.
What is the displacement of simple harmonic when kinetic and potential energy are equal?
In a simple harmonic oscillator, kinetic energy and potential energy are equal at the amplitude of the motion. At this point, all the energy is in the form of kinetic energy, and the displacement is at its maximum value.
What is the period and frequency formula for a simple harmonic oscillator?
The period (T) and frequency (f) formula for a simple harmonic oscillator is: T 1 / f where T is the period in seconds and f is the frequency in hertz.
For simple harmonic oscillator where is the greatest acceleration?
The acceleration is greatest at the top and bottom of the motion.
What is maximum at mean position for particle performing simple harmonic motion?
Velocity is maximum at mean position for particle performing simple harmonic motion. Another feature that is maximum at this position is kinetic energy.
Where is the speed of a simple harmonic oscillator equals to zero?
At the highest and lowest extremes of its travel, at the points where it changes its direction of motion.
How can amplitude be measured?
Amplitude can be measured by calculating the maximum displacement of a wave from its equilibrium position. For example, in a simple harmonic oscillator, amplitude is measured as the distance from the equilibrium position to the maximum displacement of the oscillator. In a wave, amplitude can be measured as the height of the wave from the resting position to the peak.
What is the full form of the S H O?
1) Showtime 2) Senior House Officer 3) Shutout 4) Simple Harmonic Oscillator
The maximum distance an object in simple harmonic motion moves from equilibrium is called the?
amplitude
How time period depends upon spring constant?
The time period of a simple harmonic oscillator is inversely proportional to the square root of the spring constant. This means that as the spring constant increases, the time period decreases. Mathematically, the equation for the time period of a simple harmonic oscillator is T = 2π√(m/k), where T is the time period, m is the mass attached to the spring, and k is the spring constant.
What is the formula for the potential energy of a simple harmonic oscillator in terms of the equilibrium position and the angle theta?
The formula for the potential energy of a simple harmonic oscillator in terms of the equilibrium position and the angle theta is U 1/2 k (x2 (L - x)2), where U is the potential energy, k is the spring constant, x is the displacement from the equilibrium position, and L is the length of the spring at equilibrium.
