Standard gravity is measured as 9.8 meters per second squared. This is then multiplied by the mass of something to get the force of gravity on it, which is expressed in Newtons.
On the earth's surface, it's 9.8 newtons for each kilogram of mass in
the other object that's swapping gravitational forces with the earth.
At least the same number as the weight of the object upon which gravity is acting.
Weight is the measure of the force with which the Earth's gravity is pulling an object to its center. Since it is a measure of force, it is often expressed in Newtons.
It is expressed in m/s2.
980 newton
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
The force (equal on both objects) is measured in newtons.
Weight is the measure of the force with which the Earth's gravity is pulling an object to its center. Since it is a measure of force, it is often expressed in Newtons.
It is expressed in m/s2.
gravity
Gravity is a force measured in Newton's (N)
980 newton
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
Standard gravity is measured as 9.8 meters per second squared. This is then multiplied by the mass of something to get the force of gravity on it, which is expressed in Newtons.
The force (equal on both objects) is measured in newtons.
force is expressed in newton because newton discovered force
The metric unit for force - any force - is the newton.
"Gravitation" doesn't really have units. Weight, which is the force experienced by an object due to gravity, is a force, so it's expressed in force units: newtons. A newton is a kilogram - meter per second squared expressed in SI base units.
Weight. W = mg, where W is weight, m is mass in kg, and g is acceleration due to gravity, 9.8m/s2. The resulting unit is kg•m/s2, which is a Newton.