Double the first potential energy.
Well, basically, the higher an object is above the ground, the more potential energy it has. For kinetic energy, the amount of energy depends on the amount of force.
The potential energy of an object can be calculated using the simple formula Potential Energy = mass*acceleration due to gravity*distance above ground. For simplification, we can call the mass m and the acceleration g. Using these values, the object will have a potential energy of 12m*g when it is 12 feet off the ground. When it is 24 feet off the ground, it will have an energy of 24*m*g. This is nothing more than twice the value we calculated before, so we can say that the object's potential energy at 24 feet is twice its potential energy at 12 feet. In order to give an exact value, we would need to know the mass of the object as well.
After falling 25 meters, it has less potential energy, by an amount calculated with the formula mgh (mass x gravity x height). If you ignore air resistance, the kinetic energy will increase by the same amount.
Potential energy depends upon the datum(initial condition ) chosen.If we take ground as datum potential energy is zero
.potential energy equalls mgh, where m is mass of object, g is gravity, h is height of the object placed from the ground level. . When height increases potential energy also increases..
3 times the original potential energy
It will withhold two times as much potential energy as before.
Stored energy is potential energy. Whether it's chemical potential(energy in chemical bonds) or gravitational potential energy(an object held at a certain height above the ground).
Well, basically, the higher an object is above the ground, the more potential energy it has. For kinetic energy, the amount of energy depends on the amount of force.
popiseed muffins rock!
The potential energy of an object can be calculated using the simple formula Potential Energy = mass*acceleration due to gravity*distance above ground. For simplification, we can call the mass m and the acceleration g. Using these values, the object will have a potential energy of 12m*g when it is 12 feet off the ground. When it is 24 feet off the ground, it will have an energy of 24*m*g. This is nothing more than twice the value we calculated before, so we can say that the object's potential energy at 24 feet is twice its potential energy at 12 feet. In order to give an exact value, we would need to know the mass of the object as well.
Potential energy depends upon the datum(initial condition ) chosen.If we take ground as datum potential energy is zero
After falling 25 meters, it has less potential energy, by an amount calculated with the formula mgh (mass x gravity x height). If you ignore air resistance, the kinetic energy will increase by the same amount.
Potential energy is stored energy, which results from position or configuration. Refer to the related link below for more information.
Potential energy of a body with certain mass is proportional to the vertical position of the body with respect to the ground. Potential energy of the string is proportional to second degree of displacement from the point of equilibrium.
.potential energy equalls mgh, where m is mass of object, g is gravity, h is height of the object placed from the ground level. . When height increases potential energy also increases..
Energy of position is called potential enrgy. For example, a rock at a certain height has more energy than when it is at ground level - when it falls down, this energy can be converted into other energy forms. In this case, of gravitational potential energy, the amount of energy is calculated as mgh (mass x gravity x height). Gravity is about 9.8 meters per second square.