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PE = mgh (mass x gravity x height). The 3 kilogram rock will have to be 10 times as high as the 30 kilogram marble.
PE = mgh (mass x gravity x height). The 3 kilogram rock will have to be 10 times as high as the 30 kilogram marble.
PE = mgh (mass x gravity x height). The 3 kilogram rock will have to be 10 times as high as the 30 kilogram marble.
PE = mgh (mass x gravity x height). The 3 kilogram rock will have to be 10 times as high as the 30 kilogram marble.
PE = mgh (mass x gravity x height). The 3 kilogram rock will have to be 10 times as high as the 30 kilogram marble.
Gravity Gravity Density of the marble stone being greater than water causes it to sink by gravitational force.
The Earth's gravitational force pulls the marble to the bottom of the glass. It is the same force that keeps our feet firmly on the ground.
yes mechanical enery
That depends how large the piece of marble is, and how fast each is moving. If you take a regulation basketball and a basketball made out of marble, and throw both of them with the same speed, the marble has more kinetic energy. But if your throw is any good, they both follow the same arc, and they both sink, for a total of 4 points.
Only one marble comes off because the energy is transferred through the line of marbles and is expelled at the end driving the last marble to release
I would have gravitational potential energy, which is energy due to height.
Gravitational Potential Energy, also known as GPE.
Potential Energy changes to Kinetic Energy.
You ate food.Your body took energy from the food and stored it in your muscles.You transferred the energy from your muscles to the marble, when you LIFTED the marble against gravityand placed it on top of the roller coaster. Up there, the energy it had was potential. As it fell to lower heights,that potential energy became kinetic energy.
The same as it's potential energy
You have converted potential energy to kinetic and then back to potential. If the marble came back exactly to its starting point you would have invented perpetual motion, but in fact it will lose a little energy in friction against the tube so it will gradually lose energy and eventually just stop at the lowest point of the tube.
Kinetic energy effects changes of state because it is when energy that has been held up inside the object (aka potential energy), is finally released. For example: On a roller coaster, the cart goes up a hill. At the top of the hill, right before it is about to go down another hill, it has potential energy, or stored up energy. Then whe it is going down the hill, all the energy is released and now the energy is in the form of kinetic. Another example: A marble is attached onto the end of a string. You pull the marble back. While being held back, the marble has potential energy. When you let the marble go, that energy turns into potential energy, because it is in motion. Defintions: Potential energy: Energy that is stored up Kinetic energy: Energy in motion
well according philosophy the content in which it prevails is the amount of potential energy which is at the top and the amount of kinetic energy which hits the marble as it is going down because potential mean position and kinetic means motion so a marble in motion would be kinetic energy. Gravity has a big roll in this chasm as well because gravity cause speed: if you try a lab experiment with a marble, you will know what this means
The equation is K.E. = ½ * mass * velocity2 Kinetic energy is a measure of an object's energy due to the fact that has mass and is moving. So as long as the ball has mass and is moving, it has kinetic energy. Since all tables have friction the marble will slow down as to rolls and lose some KE. Potential Energy = mass * acceleration due to gravity * height. However since the ball is on a table (height), it also has potential energy. If one end of the table is a little higher than the other, it will gain potential energy as it rolls up the little hill, of course as it rolls up that little hill, it will lose the same amount of kinetic energy as the potential energy it gained. This is called "Conservation of Energy".
It gains kinetic energy while losing potential energy. There is also some additional energy loss due to entropy,
Kinetic energy is moving energy
The Earth's gravitational force pulls the marble to the bottom of the glass. It is the same force that keeps our feet firmly on the ground.