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∙ 10y agoThe frequency of a swing remains the same as its oscillations die down from large amplitude to small. The swings back and forth at a constant rate regardless of the amplitude of its motion. This is known as the natural frequency of the swing.
A longitudinal wave with a large amplitude will have higher peaks and lower troughs compared to a wave with a smaller amplitude. It will look taller in its oscillations and have more pronounced compressions and rarefactions.
Vibrations are oscillations of matter, therefore can be described as waves and such terms as frequency, wavelength, amplitude etc.. can be used. Therefore something that has "large vibration" has a high amplitude i.e. a high value of max displacement from a zero value during a period of oscillation.
Keeping the amplitude of a simple pendulum small helps maintain the simple harmonic motion, making the period of oscillation constant. For larger amplitudes, the motion becomes more complex and deviates from simple harmonic motion. Additionally, small amplitudes ensure that the restoring force is directly proportional to the displacement, as assumed in the theory of simple harmonic motion.
When sound waves have a large amplitude, it means that the sound is louder or more intense. Amplitude is the measure of the height of the wave and correlates with the volume or energy of the sound. A larger amplitude indicates a stronger sound wave.
Large population oscillations refer to significant and repeated fluctuations in the size of a population over a certain period of time. This can be influenced by various factors such as availability of resources, predation, disease, or environmental conditions. Understanding these oscillations can provide insights into the dynamics and stability of populations.
A longitudinal wave with a large amplitude will have higher peaks and lower troughs compared to a wave with a smaller amplitude. It will look taller in its oscillations and have more pronounced compressions and rarefactions.
Vibrations are oscillations of matter, therefore can be described as waves and such terms as frequency, wavelength, amplitude etc.. can be used. Therefore something that has "large vibration" has a high amplitude i.e. a high value of max displacement from a zero value during a period of oscillation.
You end up with a number that is 1000 times as large.
amplitude at resonance is large[maximum] but finite
Bigger the amplitude, bigger the wave.
A longitudinal wave has a large amplitude if the particles in the medium are displaced by a significant distance from their equilibrium position. This displacement represents the maximum strength or intensity of the wave. The larger the amplitude, the more energy the wave carries.
It moves with the same frequency and amplitude as the seismic waves, while the large mass suspended within it is damped from these oscillations due to it's own inertia. The relative movement between this stationary mass and the frame can then be recorded.
A sound wave that has a large amplitude carries a lot of energy because the higher the waves amplitude the louder (more powerful or energetic) the wave will be. apex answer: high amplitude
Keeping the amplitude of a simple pendulum small helps maintain the simple harmonic motion, making the period of oscillation constant. For larger amplitudes, the motion becomes more complex and deviates from simple harmonic motion. Additionally, small amplitudes ensure that the restoring force is directly proportional to the displacement, as assumed in the theory of simple harmonic motion.
When sound waves have a large amplitude, it means that the sound is louder or more intense. Amplitude is the measure of the height of the wave and correlates with the volume or energy of the sound. A larger amplitude indicates a stronger sound wave.
Large population oscillations refer to significant and repeated fluctuations in the size of a population over a certain period of time. This can be influenced by various factors such as availability of resources, predation, disease, or environmental conditions. Understanding these oscillations can provide insights into the dynamics and stability of populations.
The amplitude of the sound waves will be largerbecause the larger the amplitude the louderthe sound.