The dimension of mass is always [M].
Wiki User
β 7y agowhat is dimnsion of gravitational constant
The dimensions are [L^3 M^-1 T ^-2].
They are [L^3]*M^-1][T^-2].
Cavendish measured the gravitational constant "G".
The gravitational constant was found by Newton, not Einstein.
what is dimnsion of gravitational constant
The quantity called the Gravitational constant (G) has the following dimension: [G] = L3T-2M-1 The mass exponent is "negative" ... but watch out, it only means that mass is on the denominator ... i.e. [G] = L3 / T2M
Weight = Mass x (Local Gravitational Constant)/(Standard Gravitational COnstant)
The dimensions are [L^3 M^-1 T ^-2].
They are [L^3]*M^-1][T^-2].
A gravimeter is usually used to measure the mass of the Earth. This device works by measuring the acceleration due to gravity at various locations on Earth, and from these measurements, the mass and density of the Earth can be calculated.
No. Gravitational Acceleration is a constant and is a function of mass. The effects of the constant upon another mass can be altered but the acceleration itself will remain the same.
No, the gravitational constant on the Moon is not the same as on Earth. The gravitational constant depends on the mass and radius of the celestial body. The Moon has a lower mass and radius compared to Earth, resulting in a weaker gravitational constant on the Moon.
Because the mass is not dependent on the gravitational influence.
Force gravitational = (mass of the object)(the gravitational constant) F=mg "g" is the gravitational constant, it is equal to 9.8 m/s^2
The gravitational force between two objects increases with mass: the larger the mass, the stronger the gravitational force. The force decreases with distance between the two objects: the farther apart they are, the weaker the gravitational force.
Basically it is the object's "weight". The gravitational force on an object is its Mass X Gravitational Constant. The gravitational constant is the acceleration of a free falling body towards another body, and on Earth is equal to 9.81 meters/sec2 or 32.2 feet/sec2. Thus while the MASS of an object is a constant physical property, the WEIGHT of an object depends on the local gravity field pulling on that MASS.