Wiki User
∙ 14y agoThe amplitude of the Simple Harmonic Motion is 0.05.
Wiki User
∙ 14y agoThe 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.
amplitude
They are measured in degrees, minutes and seconds
That depends on what discipline you're studying. In Physics: the maximum extent of a vibration or oscillation, measured from the position of equilibrium. • the maximum difference of an alternating electrical current or potential from the average value. In Astronomy: the angular distance of a celestial object from the true east or west point of the horizon at rising or setting. In Mathematics: the angle between the real axis of an Argand diagram and a vector representing a complex number.
A body undergoes simple harmonic motion if the acceleration of the particle is proportional to the displacement of the particle from the mean position and the acceleration is always directed towards that mean. Provided the amplitude is small, a swing is an example of simple harmonic motion.
In a longitudinal wave, amplitude is measured as the maximum displacement of a particle from its equilibrium position. It represents the maximum distance the particle moves back and forth as the wave passes through it. It is usually measured from the equilibrium position to the peak of the wave.
Amplitude in a transverse wave can be measured by the maximum displacement of a particle from its equilibrium position as the wave passes through it. This can be measured by looking at the height of the wave crest or the depth of the wave trough from the equilibrium position. Alternatively, it can be measured by the maximum value of the wave function that describes the wave's displacement from equilibrium.
Displacement in a wave refers to the distance of a point on a wave from its equilibrium position. It can be measured as the height of a crest or depth of a trough from the equilibrium position of the wave. It indicates how far a particle has moved from its resting point due to the passage of the wave.
The amplitude is typically measured from either the crest or trough of a wave to the equilibrium position (resting position) of the wave. It represents the maximum displacement of a wave from its equilibrium position.
It measures the maximum displacement of a particle in the wave from the equilibrium position. The equilibrium position is also known as the resting position. When displacement of the particle equal to the amplitude, we say that it is at the amplitude, where it is furthest from its equilibrium position.
A rapid linear motion of a particle or of an elastic solid about an equilibrium position.
The maximum displacement of a particle within a wave above or below its equilibrium position is called the "amplitude" of the wave. It represents the maximum distance the particle moves away from its equilibrium position in either direction as the wave passes through.
equilibrium amplitude
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.
The amplitude of a wave is the maximum displacement of a particle from its equilibrium position. It can be determined by measuring the distance from the equilibrium position to the highest point of the wave or the peak of a wave.
The statement is incorrect. The maximum displacement of a particle from its equilibrium position in a wave is known as the amplitude of the wave, not the amplitude of the particle itself.
When a wave passes through a particle, the particle oscillates around its equilibrium position. If the wave is a simple harmonic wave, the particle will return to its original position after one complete wave cycle since the restoring force is proportional and opposite to the displacement of the particle. Mathematically, this can be shown by analyzing the equation of motion for the particle.