Click to start!
10Click to start!
10Click to start!
10Click to start!
10Acceleration due to gravity depends on the mass of the falling object.
All freely falling bodies fall with the same acceleration.
The value of g is the same everywhere on Earth.
Air resistance affects the motion of falling objects.
Feather and coin fall together in vacuum.
Galileo supported Aristotle’s idea of falling bodies.
Acceleration due to gravity is maximum at Earth’s surface.
On the Moon, air resistance is present.
The value of g depends on the planet’s radius.
g = GM/R² proves that g is independent of mass of falling body.
Percentage: 0%
If the mass and the radius of a celestial body are two times the mass and the radius of the Earth respectively, what is the value of acceleration due to the gravity of that body?
Acceleration due to gravity is caused by:
The value of g on Earth is approximately:
Acceleration due to gravity depends on:
Who proved that all bodies fall with the same acceleration?
On the Moon, objects fall:
Air resistance affects which object most?
When air resistance is zero, objects fall:
The acceleration due to gravity is inversely proportional to:
Which experiment disproved Aristotle’s law?
The acceleration produced in a freely falling body due to gravity is called ______ due to gravity.
Acceleration due to gravity is denoted by ______.
The SI unit of acceleration due to gravity is ______/s².
The value of acceleration due to gravity on Earth is ______.8 m/s².
The acceleration due to gravity does not depend on the ______ of the falling object.
When air resistance is negligible, all objects fall with the same ______.
The formula for acceleration due to gravity is ______ = GM / R².
The value of g depends on the ______ and ______ of the planet.
On the Moon, all objects fall with the same ______.
Air resistance depends on the ______ area of the falling object.