The greater the frequency the greater the energy. related by the equation:
E=hf. E is the energy, h is a constant called planks constant and has a value of
a large wave because it is built and its structure is stronger.
The amount of energy in a sound wave is related to its amplitude, which is the height of the wave from its baseline. The larger the amplitude, the more energy the sound wave carries.
The amount of energy in a wave is determined by its amplitude, which is the height of the wave from the equilibrium position. Waves with greater amplitude carry more energy.
The measure or amount of energy in a wave is typically described by its amplitude, which represents the height or intensity of the wave. Higher amplitudes correspond to greater energy levels in a wave.
The frequency of the electromagnetic wave determines the amount of energy it carries.
In nuclear reactions, energy is usually released. This energy is released as an electromagnetic wave. Because of the large amount of energy involved, this wave has a high frequency/energy - a gamma ray.
a large wave because it is built and its structure is stronger.
The amount of energy in a sound wave is related to its amplitude, which is the height of the wave from its baseline. The larger the amplitude, the more energy the sound wave carries.
The amount of energy in a wave is determined by its amplitude, which is the height of the wave from the equilibrium position. Waves with greater amplitude carry more energy.
The measure or amount of energy in a wave is typically described by its amplitude, which represents the height or intensity of the wave. Higher amplitudes correspond to greater energy levels in a wave.
The frequency of the electromagnetic wave determines the amount of energy it carries.
The amount of energy carried by a wave in a certain amount of time is called its power. Power is measured in watts and is proportional to the square of the amplitude of the wave. A higher power means that more energy is being transmitted by the wave.
Depends on the amount of energy in the wave.
The amplitude of a transverse wave determines the amount of energy at one time. A higher amplitude corresponds to a greater amount of energy being carried by the wave.
A wave with high amplitude has large peaks and troughs, indicating a significant amount of energy. This type of wave carries more energy than a wave with small amplitude, and can be more powerful and potentially more destructive. High-amplitude waves are often associated with phenomena like earthquakes, tsunamis, or large storm surges.
The greatest amount of energy in a wave is determined by its amplitude, which is the height of the wave from the resting position to the peak. Waves with higher amplitudes carry more energy.
To produce a longitudinal wave on a spring with large energy, you can start by displacing one end of the spring in the direction you want the wave to travel. Apply a significant amount of force to create a strong wave with high energy content. The wave will propagate along the spring as the particles oscillate back and forth in the direction of the wave.