The geometrical parameters like volume,shape, and cross section.
[object Object]
When an object is lifted to a certain height, the mechanical energy of the person or system lifting the object gets transferred into the potential energy of the object. Thus if an object of mass/weight 'm' is lifted to a height 'h', then the potential energy possed by the object at height 'h' is given as: Potential Energy (P.E)= m*g*h, where g is acceleration due to gravity and whose value is 9.8 m/s2.
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Multiply the area of the base by the height of the object. The area of the base can be found by multiplying the length times the width of one of the faces.
There are many types of safety shoes. Most have steel inserts over the toe area and flexible steel insoles to prevent punctures by nails. They may also have metal instep guards. These features protect against smashed toes and feet if a heavy object is dropped, and prevent punctures in the soles of the feet if a sharp object, such as a nail protruding from a piece of lumber, is stepped on.
The height from which an object is dropped does not affect its average velocity. Average velocity depends on the overall displacement and time taken to achieve that displacement, regardless of the initial height of the object.
the height from which it was dropped
Because they undergo an acceleration. Free fall velocity is the function of a square.
The acceleration of an object dropped from a height of 10 meters is approximately 9.81 m/s2.
It depends upon a number of factors, among them being the height of the building.
It's not possible to calculate the answer with the information given.An object with a mass of 15 kg can be dropped from a building of any height.
As the height of a dropped ball decreases, its potential energy also decreases. This is because potential energy is directly proportional to an object's height - the higher the object, the greater its potential energy.
If both objects have similar air resistance factors, they will both hit the ground together.
That is called gravity.
The height from which an object is dropped influences the crater's diameter primarily due to the object’s impact velocity, which increases with greater height due to gravitational acceleration. A higher drop height results in a greater kinetic energy upon impact, leading to a more forceful collision with the surface. This increased energy can displace more material, resulting in a larger crater. Additionally, factors like the object's mass and shape, as well as the surface material's properties, also play significant roles in determining the crater size.
When an object is dropped from a certain height, the time it takes to reach the ground is independent of the height (assuming no air resistance). Therefore, whether you drop the object from three times the initial height or the original height, it will still take the same time (T) to reach the ground.
Weight and height