# How to Calculate the Amount of Work Done by Gravity

Work is a force applied to change the energy of a system. For example, a force of 10 newtons acts along a point travelling two metres. Its work is equal to 20 J. Similarly, if you lift an object weighing 1 kg and hold it against gravity, you will produce the same amount of work if you double the weight and move it the same distance. Then, you will double the work again.

In the physical world, work can only be described in terms of force. However, it also possesses units of energy. Like the electrical energy, it can be represented with the same units. The SI unit for work is the joule, named after 19th century English physicist James Prescott Joule. It is the amount of effort required to exert a newton of force over a displacement of one metre. Non-SI units of mass, energy, or force are available, and include the newton-metre, erg, foot-pound, horsepower-hour, and litre-atmosphere. As the two are related, work can be measured in the same way as heat.

Similarly, a force’s work equals the energy transferred to the object. To calculate the amount of work, you must consider the force applied against the object’s motion. Otherwise, the force is considered negative work. In this case, the force is equal to the velocity of the object, and the object will lose energy as a result. When determining the units of work, you should take into account how much energy it takes to move an object.

To calculate the amount of work done by gravity, you must know the physical unit of work. Its standard unit is the joule. It is the force applied over a distance. There are several other non-SI units for work, including the newton-meter, erg, and foot-pound. In base SI units, the erg is equivalent to a gram-centimeter per second. This definition is useful in many contexts.

The SI unit of work is the joule. It is named after the 19th-century English physicist James Prescott Joule. A joule is the force necessary to move an object one metre. Other non-SI units for work are kilogram-meter-squared-second, erg, and foot-pound. Then there are some other non-SI units of energy, like the erg.

The SI unit of work is the joule. It was named after the 19th-century English physicist James Prescott Joule. A joule is the amount of force applied over a distance. There are other non-SI units of work. In base SI, the erg is equal to a kilogram-meter squared-second. If a joule is higher than the kilogram-meter-meter, then the energy is smaller.

The work of an object is an angular displacement. The force of gravity is applied to a mass (m). The result is the displacement m. A torque m is used to move an object. Then, it is converted to an angular motion vector m. m is the mass of the object, and the distance f. If a bolt is attached to an object, the torque m is the torque.