the force (f) on both masses is :
f = (G*m1*m2) / d^2
G= newtons gravitational constant (6.672 * 10^-11)
m1 = mass 1 (kg)
m2 = mass 2 (kg)
d = distance between centres of gravity (metres)
The strength of the mutual forces of gravity that attract two objects toward each
other is called the "weight" of each object in the presence of the other one.
The strength of the mutual gravitational forces that attract you and the earth
toward each other is called your weight on the earth. Nobody cares about the
earth's weight on you, but it's exactly the same number.
The object's weight is the force with which gravity pulls on an object.
The mutual force with which every two masses attract each other because of
gravity is referred to as the "weight" of the objects.
That is called the weight of the object in question.
weight.
Weight.
Its weight
9.8 m/s
gravity
Gravity
The force of gravity is what keeps us grounded on Earth and is determined by the mass of the world (Earth) and our own mass. The interaction between these masses results in the force that pulls us towards the Earth's center.
mass of object *force of gravity
G= m.g To find the value of gravitational force applied on an object (in other but less scientific words- the amount of gravity that pulls an object) you should multiply the mass of the object (m, generally in kg) and the gravitational acceleration (g, generally in ms-2) in that area.
Gravity.
gravity
no it's wieght
Gravity pulls all objects that have mass together.
Is described by Newton's Law of Universal Gravitation.
Gravity
The force of gravity is what keeps us grounded on Earth and is determined by the mass of the world (Earth) and our own mass. The interaction between these masses results in the force that pulls us towards the Earth's center.
mass of object *force of gravity
Gravity is NOT a pulling Force. Gravity is a "Pushing" Force of Mass Expansion. Earth Mass is Expanding at the Gravitational Acceleration rate of 9.808175174 m/s^2
Gravity pulls everything down at a rate of 9.8 m/s2 .
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.
Yes. Gravity is defined as the natural force of attraction between any two bodies with mass.