The stronger gravitational condition would make the object fall faster. The weaker the gravitational condition the slower the object would fall.
They'll both hit the ground at the same time.
one object will go slower and one object will go slower
Gravitational energy is U = mgh. Therefore, you need the egg's mass and the height at which it will be dropped. g=9.8
Gravitational energy basically refers to gravitational potential energy. The formula is: GPE = mgh (i.e., mass x gravity x height) In other words at a higher position, an object has more gravitational potential energy. Please note that once an object is dropped, it no longer has such gravitational potential energy. The potential energy is converted to kinetic (movement) energy; which of course will be greater if the initial potential energy was greater.
By moving an object higher up. A ball dropped off a 100 foot cliff has higher potential energy than a ball dropped off a 4 foot tall desk.
when you drop an identical object in different gravitational conditions it will not have a similar acceleration because the gravity are different.
They'll both hit the ground at the same time.
one object will go slower and one object will go slower
one object will go slower and one object will go slower
Without the interference of air or any other force, they should fall at the same speed. All objects accelerate at the same rate regarding their masses. To conclude, If this was made in a vacuum they should fall at the same speed but in different conditions it may have different results due to air resistance.
After the car is dropped, it has NO gravitational potential energy.Before it's dropped, you can calculate the potential energy as mgh (mass x gravity x height). You can use 9.8 for gravity.
Gravitational energy is U = mgh. Therefore, you need the egg's mass and the height at which it will be dropped. g=9.8
Gravitational energy basically refers to gravitational potential energy. The formula is: GPE = mgh (i.e., mass x gravity x height) In other words at a higher position, an object has more gravitational potential energy. Please note that once an object is dropped, it no longer has such gravitational potential energy. The potential energy is converted to kinetic (movement) energy; which of course will be greater if the initial potential energy was greater.
it determine the size and the shape that there is gravitational force of beans
Sandbags work best as they can be dropped overboard if weather conditions deteriorate.
By moving an object higher up. A ball dropped off a 100 foot cliff has higher potential energy than a ball dropped off a 4 foot tall desk.
When a object is dropped downward from rest, the gravitational potential energy is converted to kinetic energy.