acceleration of gravity

The acceleration of gravity is 1.4 times that on Earth.

Note that here is the acceleration of gravity along the spring.

The more dense the matter at a particular location, the greater is the local acceleration of gravity.

Though matter always has a mass, it may not have a weight if the acceleration of gravity is zero.

On his home planet the acceleration of gravity was 54 feet the first second, instead of 32.

Its readings are usually given in "g's," with one g representing the acceleration of gravity.

It is moving on a collision course toward its primary at many times the normal acceleration of gravity."

The acceleration of gravity is not a monolithic quantity and many factors influence it.

The weight of an object is defined as the mass times the acceleration of gravity.

In the applications area there are sensitive instruments that measure the "local" acceleration of gravity.

Replies: Sensitive instruments exist for measuring the acceleration of gravity at a given location.

At ten feet the missile froze as its upward velocity gave in to the downward acceleration of gravity.

'Well, the acceleration of gravity is produced by the proximity of a mass - right?

There are only four ways of providing a given acceleration of gravity, until some genius finds a way to create it.

The acceleration of gravity is such that, taking into account frictional losses at the pivot, it will take half a second to fall.

This g is the acceleration of gravity.

Let be the acceleration of gravity.

The constant c depends on the acceleration of gravity and the molar mass of the air.

Agency engineers chose a statewide standard of 6 percent of the acceleration of gravity.

He leaned harder still, using the added acceleration of gravity to move them down quickly, to achieve the maximum possible change in position from the missile.

These measurements are sensitive to thousandth's of the nominal acceleration of gravity.

I could only think about an amusement park ride I'd been on years before that supposedly shoved riders forward at four times the acceleration of gravity.

It depends only on the length of the pendulum, and on the local acceleration of gravity.

(This formula doesn't work for heights so large that the acceleration of gravity changes as the object falls.)

(Does not need acceleration of gravity or external acceration)