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10The Earth is perfectly spherical.
The radius of Earth is greater at the poles.
The value of g is higher at the equator.
Objects fall faster at the poles than at the equator.
The average value of g on Earth is 9.81 m/s².
Acceleration due to gravity depends on Earth’s radius.
Velocity of a falling body increases by 9.81 m/s every second.
At maximum height, the velocity of a projected body is zero.
g remains constant everywhere on Earth.
Gravity slows down a body moving upward.
Percentage: 0%
The shape of the Earth is best described as:
The value of g is maximum at the:
The value of g at the equator is:
Acceleration due to gravity is inversely proportional to:
Objects fall faster at the poles because:
Average value of g on Earth is:
Velocity of a body thrown upward becomes zero at:
As an object moves upward, its velocity:
The Earth’s radius is largest at the:
Acceleration due to gravity causes velocity to change by:
The Earth is not perfectly spherical; it is slightly ______ at the poles.
The radius of the Earth is ______ at the equator than at the poles.
The acceleration due to gravity is inversely proportional to the ______ of the radius of the Earth.
The value of g is ______ at the poles.
The value of g is ______ at the equator.
The value of g at the equator is ______.78 m/s².
The value of g at the poles is ______.83 m/s².
Objects fall ______ at the poles than at the equator.
The average value of acceleration due to gravity on Earth is ______.81 m/s².
When an object is projected vertically upward, its velocity ______ due to gravity.