We could spot the better one in a flash if we could see the graphs.
The good one should be a straight horizontal line, since acceleration
due to gravity is constant and doesn't depend on mass.
Gravity produces acceleration on an object, assuming that no other force acts on the object.
The force of gravity on object can differ because of its slope. An object can pick up quick acceleration at a steep slope due to the force of gravity than normal slopes. We say that gravity is force of attraction between the body and the surface of the earth. at a slope gravity attracts the object to itself. The gravitational force is 9.8N. when gravity attracts the object to itself than for sure the object will gain acceleration but the acceleration rate of the object will differ by the slope that it has been pulled.
force is related to gravity by its mass (m) times the acceleration of gravity (g) F =mg
The relationship is expressed by Newton's Second Law: F=ma (force = mass x acceleration).
Not at all. However Gravity can impart an acceleration - Gravitational acceleration.
Gravity produces acceleration on an object, assuming that no other force acts on the object.
the pressure of liquid is HDG where H=depth D=density g= acceleration due to gravity thus depth= pressure/density*acceleration due to gravity
There's a very definite relationship ... which we can write as a fairly simple mathematicalformula ... between the planet's mass, its radius, and the acceleration of gravity at its surface.
Gravitational acceleration is simply acceleration due to gravity.
The force of gravity on object can differ because of its slope. An object can pick up quick acceleration at a steep slope due to the force of gravity than normal slopes. We say that gravity is force of attraction between the body and the surface of the earth. at a slope gravity attracts the object to itself. The gravitational force is 9.8N. when gravity attracts the object to itself than for sure the object will gain acceleration but the acceleration rate of the object will differ by the slope that it has been pulled.
force is related to gravity by its mass (m) times the acceleration of gravity (g) F =mg
The relationship is expressed by Newton's Second Law: F=ma (force = mass x acceleration).
its 13.6
No relationship at all.
Not at all. However Gravity can impart an acceleration - Gravitational acceleration.
There is a very great relationship between density and specific gravity. Density contributes to the weight of a substance under specific gravity.
Acceleration does not effect gravity. It is rather the other way round. Gravity can affect the rate of acceleration.