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Why would the impact of a heavy Stone produce waves with higher amplitude than the impact of the light ston would?
The heavy stone carries more momentum due to its larger mass, resulting in a greater force upon impact. This force generates larger waves with higher amplitude compared to the impact of the lighter stone, which has less momentum and produces smaller waves.
Why the impact of the heavy stone would produce waves with higher amplitude than the impact of the light stone would?
The heavier stone carries more energy when it hits the water, causing a stronger disturbance and larger waves. The greater mass of the heavy stone results in a greater force exerted on the water upon impact, leading to higher amplitude waves.
Why the impact of the heavy stone would produce waves with the higher amplitude than the impact of the light stone?
due to higher intensityof heavy stone than a lighter stone
Why would the impact of the heavy stone would produce waves with higher amplitude than the impact of the light stone would?
The heavy stone carries more energy when it impacts the water, causing larger waves with higher amplitude to be produced. This is because the heavier stone transfers more kinetic energy to the water upon impact, displacing more water molecules and creating larger waves compared to the lighter stone.
What effects does amplitude have on colour?
Amplitude does not have a direct effect on the color of light. The color of light is determined by its wavelength. Amplitude does impact the brightness or intensity of the light, with higher amplitudes producing brighter light.
Why would the impact of a heavy Stone produce waves with higher amplitude than the impact of the light ston would?
The heavy stone carries more momentum due to its larger mass, resulting in a greater force upon impact. This force generates larger waves with higher amplitude compared to the impact of the lighter stone, which has less momentum and produces smaller waves.
Why the impact of the heavy stone would produce waves with higher amplitude than the impact of the light stone would?
The heavier stone carries more energy when it hits the water, causing a stronger disturbance and larger waves. The greater mass of the heavy stone results in a greater force exerted on the water upon impact, leading to higher amplitude waves.
Why the impact of the heavy stone would produce waves with the higher amplitude than the impact of the light stone?
due to higher intensityof heavy stone than a lighter stone
Why would the impact of the heavy stone would produce waves with higher amplitude than the impact of the light stone would?
The heavy stone carries more energy when it impacts the water, causing larger waves with higher amplitude to be produced. This is because the heavier stone transfers more kinetic energy to the water upon impact, displacing more water molecules and creating larger waves compared to the lighter stone.
What effects does amplitude have on colour?
Amplitude does not have a direct effect on the color of light. The color of light is determined by its wavelength. Amplitude does impact the brightness or intensity of the light, with higher amplitudes producing brighter light.
How does the change in height from which a ball is dropped impact its bounce?
The higher the ball is dropped from, the higher it will bounce due to increased potential energy converting to kinetic energy upon impact with the ground. However, it will not bounce at the same height it was dropped from due to energy losses from factors such as air resistance and deformation upon impact.
How does changing the amplitude of a wave impact wave speed?
Changing the amplitude of a wave does not impact the wave speed. Wave speed is determined by the medium through which the wave is traveling. The amplitude only affects the energy of the wave, not its speed.
What difference in a note does the amplitude of its sound make?
is when sound going up wave is going down
How does the height a boucny ball is dropped from effect the height it bounces to?
The higher the ball is dropped from, the higher it will bounce back. This is due to potential energy converting to kinetic energy upon impact with the ground, propelling the ball higher when dropped from greater heights. Ultimately, the bounce height depends on factors like gravity, air resistance, and the material of the ball.
What are the differences in wave ampliture?
Wave amplitude refers to the maximum displacement of a particle from its rest position within a wave. The differences in wave amplitude can affect the energy carried by the wave - higher amplitude waves carry more energy than lower amplitude waves. Additionally, wave amplitude can also impact the perceived intensity or loudness of a wave in the case of sound waves.
What would bounce higher if dropped at the same height a wooden ball or rubber ball?
The rubber ball would bounce higher than the wooden ball when dropped at the same height. Rubber is an elastic material that can store and release more energy upon impact compared to wood, resulting in a higher bounce.
How does changing the height from which a ball is dropped impact its bounce?
Increasing the height from which a ball is dropped will result in a higher bounce because the ball gains more potential energy as it falls from a greater height. This increase in potential energy translates to a greater kinetic energy upon impact with the ground, leading to a higher bounce.
