0.8 meters per second square (from Wikipedia). This is probably an approximation, a current estimate; Eris is far away, and it is therefore difficult to get accurate data on its mass and its diameter.
0.8 meters per second square (from Wikipedia). This is probably an approximation, a current estimate; Eris is far away, and it is therefore difficult to get accurate data on its mass and its diameter.
0.8 meters per second square (from Wikipedia). This is probably an approximation, a current estimate; Eris is far away, and it is therefore difficult to get accurate data on its mass and its diameter.
0.8 meters per second square (from Wikipedia). This is probably an approximation, a current estimate; Eris is far away, and it is therefore difficult to get accurate data on its mass and its diameter.
0.8 meters per second square (from Wikipedia). This is probably an approximation, a current estimate; Eris is far away, and it is therefore difficult to get accurate data on its mass and its diameter.
acceleration encountered by an object in free fall is 'g' or 9.8 m/s2
Mass does not determine the rate something will fall. The rate of acceleration is constant as gravity, regardless of mass.
Yes
In free fall in a vacuum, all objects fall at the same rate of acceleration. In air, however, friction comes into play, so that various objects can fall at different rates.
no, they fall the same acceleration ( one gravity ) neglecting air resistance; however they may reach different velocities with air resistance.
yes, objects fall at a rate of 9.8m/swith acceleration. For every second in free fall you must add 9.8m/s to get the acceleration of an object.
acceleration encountered by an object in free fall is 'g' or 9.8 m/s2
Mass does not determine the rate something will fall. The rate of acceleration is constant as gravity, regardless of mass.
1.the shape of the universe 2.the rate of acceleration or de-acceleration
Yes
In free fall in a vacuum, all objects fall at the same rate of acceleration. In air, however, friction comes into play, so that various objects can fall at different rates.
no, they fall the same acceleration ( one gravity ) neglecting air resistance; however they may reach different velocities with air resistance.
no because of acceleration
acceleration is the rate of change of velocity with respect to time.
Take a position equation found experimentally, s(t), and take a double derivative. The first d/dx is velocity and the second is acceleration.
Acceleration
yes. The acceleration rate is a constant, the gravitational constant. Here, the earth's mass is assumed to be a constant.