D = 1/2 G t2
3 = 1/2 G (1)
G = 6 meters/second2
9.81 m/s2
The magnitude of acceleration due to gravity depends on the mass of the object toward which you're attracted by gravity, and on your distance from it. It ought to be pretty clear that in space, there are several different possibilities.
-- The acceleration due to gravity is 9.8 meters (32.2 feet) per second2 -- The force of gravity on a mass (its 'weight') is 9.8 newtons (2.205 poundsforce) per kilogram
Weight is defined as a product of mass nd acceleration due to gravity. It has both magnitude nd weight. Actually acceleration has both magnitude nd direction so is a vector quantity. The product of vector quantity and a scaler quantity gives us vector quantity. As weight is a product of mass nd acceleration due to gravity so its a vector quantity. Moaz khaliq
Not at all. However Gravity can impart an acceleration - Gravitational acceleration.
gravity
The magnitude of acceleration depends on the gravitational pull from the planet. The amount of gravitational pull depends on the size and mass of the planet. On Earth gravity will produce an acceleration of 9.8 meters per second squared if there was no atmosphere.
9.81 m/s2
The magnitude of acceleration due to gravity depends on the mass of the object toward which you're attracted by gravity, and on your distance from it. There are trillions of different possibilities in space.
Mercury's acceleration of gravity in m/s^2 is 3.59
Tension = mass(acceleration) + force of gravity Force of gravity equals mass times gravity (9.8m/s2)
The magnitude of acceleration due to gravity depends on the mass of the object toward which you're attracted by gravity, and on your distance from it. It ought to be pretty clear that in space, there are several different possibilities.
-- The acceleration due to gravity is 9.8 meters (32.2 feet) per second2 -- The force of gravity on a mass (its 'weight') is 9.8 newtons (2.205 poundsforce) per kilogram
Weight is defined as a product of mass nd acceleration due to gravity. It has both magnitude nd weight. Actually acceleration has both magnitude nd direction so is a vector quantity. The product of vector quantity and a scaler quantity gives us vector quantity. As weight is a product of mass nd acceleration due to gravity so its a vector quantity. Moaz khaliq
Not at all. However Gravity can impart an acceleration - Gravitational acceleration.
Acceleration does not effect gravity. It is rather the other way round. Gravity can affect the rate of acceleration.
Weight depends on acceleration due to gravity and similarly acceleration due gravity depends on force of gravity. The force of gravity of moon is 6times less than that of earth and due to this their is variation in acceleration due to gravith between the earth and the moon. As there is difference in acceleration due to gravity between the earth and moon, the magnitude of weight also vary . And next most important thing to keep on mind is that mass is independent of gravity so it does not change anywhere ....