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amplitude.
The characteristic of a wave that describes the greatest distance it travels, or vibrates from a resting position is called the amplitude, which is the technical name. A more common name would be loudness.
The greatest distance a wave travels from its position is called the amplitude of the wave. Amplitude is the measure of the maximum disturbance or displacement of a wave from its equilibrium position. It represents the maximum height of a wave crest or depth of a wave trough.
Yes, it does. The further up a ball is placed on a ramp, the greater the distance the ball travels. If launched from a lower starting position, then the ball shall travel a shorter distance. This is all true under Newton's second law, which states that Force = mass * acelaration(F= m*a). If the ball has to move something, i.e. a cup, then the rule applies as well.
The unit that measures the greatest distance is a light-year, which represents the distance that light travels in one year. This unit is frequently used in astronomy to measure vast distances between celestial objects.
amplitude
amplitude.
The characteristic of a wave that describes the greatest distance it travels, or vibrates from a resting position is called the amplitude, which is the technical name. A more common name would be loudness.
The greatest distance a wave travels from its position is called the amplitude of the wave. Amplitude is the measure of the maximum disturbance or displacement of a wave from its equilibrium position. It represents the maximum height of a wave crest or depth of a wave trough.
Yes, it does. The further up a ball is placed on a ramp, the greater the distance the ball travels. If launched from a lower starting position, then the ball shall travel a shorter distance. This is all true under Newton's second law, which states that Force = mass * acelaration(F= m*a). If the ball has to move something, i.e. a cup, then the rule applies as well.
The distance something travels depends on factors such as speed, time, and direction. It can range from a few centimeters to thousands of kilometers, depending on these variables.
The unit that measures the greatest distance is a light-year, which represents the distance that light travels in one year. This unit is frequently used in astronomy to measure vast distances between celestial objects.
The distance an object travels in a certain period of time without regard to direction is known as the object's displacement. Displacement is a vector quantity, meaning it has both magnitude (length) and direction. It is calculated by subtracting the initial position of the object from its final position. For example, if an object starts at position (2, 4) and ends at position (6, 8), the displacement would be (4, 4). Displacement is a vector quantity It has both magnitude (length) and direction It is calculated by subtracting the initial position of the object from its final positionTo put it simply, displacement is the distance an object travels in a certain period of time without regard to direction.
Because distance/time = the speed at which something travels.
The distance in which a wave travels is known as wavelength. It is the distance between two consecutive points in a wave that are in phase.
Wavelength is the distance from one molecule to the nearest molecule occupying a similar position and moving in the same direction.
Not necessarily. The distance a car travels is determined by its speed and the time it spends traveling. If a car is traveling at a slower speed but for a longer period of time, it may not cover as much distance as a car traveling at a faster speed but for a shorter period of time. So, the longest time does not always correspond to the greatest distance traveled.