the higher you go into the atmosphere, the colder it gets. however, there in an inversion layer which, instead of having things continue to be colder, temperature begins to get warmer.
A series of images showing a ball being dropped from different heights at varying temperatures, with the resulting bounce height measured. A side-by-side comparison of a ball bouncing on surfaces at different temperatures to visually demonstrate the effect of temperature on the bounce. Infographic illustrating the relationship between temperature and bounce height of a ball, with temperature as the x-axis and bounce height as the y-axis.
When the ball is at a low temperature, the molecules are not flexible and bounce only to a small height. On the other hand, if the ball is warm or at a higher temperature, it will bounce longer heights.
Yes, the initial height from which a ball is dropped can influence its bounce height. The higher the drop height, the higher the bounce height is likely to be, as potential energy is converted into kinetic energy during the bounce.
Acceleration is not directly affected by height or temperature but is influenced by mass. In general, the greater the mass, the more force is required to accelerate an object. Height and temperature can indirectly affect acceleration through factors like air resistance or gravitational force, but these effects are usually minor compared to mass.
Yes, the height from which the ball is dropped is the independent variable in this scenario. It is the variable that is intentionally changed or manipulated to observe its effect on the height of the ball's bounce, which is the dependent variable.
Very little
effect of temperature
what is the temperature when the height of air equals zero
what is the approximate height and temperature of the troposphere, stratosphere, mesosphere, and thermosphere?
what is the temperature when the height of air equals zero
A series of images showing a ball being dropped from different heights at varying temperatures, with the resulting bounce height measured. A side-by-side comparison of a ball bouncing on surfaces at different temperatures to visually demonstrate the effect of temperature on the bounce. Infographic illustrating the relationship between temperature and bounce height of a ball, with temperature as the x-axis and bounce height as the y-axis.
Exercise has no effect on height, unless you damage the discs in your spine. Under normal circumstances, exercise has no effect on height.
When water falls from a height, it gains kinetic energy. This increase in kinetic energy is converted to an increase in temperature due to friction with the air and surrounding surfaces. Overall, the water will experience a slight increase in temperature as it falls.
an increase in height increases the length
As temperature increase pressure will increase
When you go higher up it gets colder. Then the lower you go it gets hotter because the closer you are to the inner core the hotter it gets.
the hotter the tennis ball is the higher it will bounce because the molecules are moving faster and the pressure is decreasing. Opposite when it is cold.