230' feet
No, Behemoth has a 75 degree angle drop.
The height from which the manufacturer says you can drop the drive with out making it unusable.
160 feet.
The drop and bounce lab likely investigated how the drop height of an object relates to the height of the bounce. This relationship can be characterized by analyzing how changes in drop height impact the rebound height of the object. By recording and analyzing these data points, researchers can determine if there is a linear, quadratic, or other relationship between the drop height and bounce height.
The drop height of the ball directly affects the height of its bounce. A higher drop height results in a higher bounce, as the potential energy transferred to the ball upon impact is greater, causing it to rebound higher. Conversely, a lower drop height will result in a lower bounce.
To calculate the total vertical distance traveled, we can sum the distances for each drop. Since the ball reaches half the height from the previous drop, the total distance traveled can be calculated using the formula: initial drop height + initial drop height/2 + initial drop height/4 + initial drop height/8.
It depends on what height you drop it from.
yes
the diameter increases as the height is increased
The bounce height of a ball depends on factors like the material of the ball, the surface it bounces on, and the height from which it is dropped. In general, the bounce height is typically lower than the initial drop height due to energy losses during the bounce.
It is quite obvious, it will just hit the ground. The force depending on the height you dropped it from. For example: If you drop it from a high height it may shatter or it may land with more pressure. If you drop it from a low height it will simply drop with hardly any pressure.
In physics, drop height refers to the vertical distance an object falls under the influence of gravity. It is commonly used to calculate potential energy, kinetic energy, and impact force of a falling object. The higher the drop height, the greater the potential energy and impact force upon landing.