269672
The distances moved by a freely falling body during \(1^{\text {ts }}, 2^{\text {nd }}, 3^{\text {rd }}, \ldots . . . n^{\text {th }}\) second of its motion areproportional to
1 even numbers
2 odd numbers
3 all integral numbers
4 squares of integral numbers
Explanation:
MOTION IN A STRIGHT LINE
269673
To reach the same height on the moon as on the earth, a body must beprojected up with
1 higher velocity onthemon.
2 lower velocityonthemon.
3 samevel ocity on themon and earth.
4 it depends on themass of the body.
Explanation:
MOTION IN A STRIGHT LINE
269674
At the maximum height of a body thrown vertically up
1 velocity is not zero butacceleration iszero.
2 accelerationisnotzero but velocity iszero.
3 both acceleration and velocity arezero.
4 both acceleration and velocity arenotzero.
Explanation:
MOTION IN A STRIGHT LINE
269675
A ball is dropped freely while another is thrown vertically downward with an initial velocity ' \(v\) ' from the same point simultaneously. After ' \(t\) ' second they are separated by a distance of
269672
The distances moved by a freely falling body during \(1^{\text {ts }}, 2^{\text {nd }}, 3^{\text {rd }}, \ldots . . . n^{\text {th }}\) second of its motion areproportional to
1 even numbers
2 odd numbers
3 all integral numbers
4 squares of integral numbers
Explanation:
MOTION IN A STRIGHT LINE
269673
To reach the same height on the moon as on the earth, a body must beprojected up with
1 higher velocity onthemon.
2 lower velocityonthemon.
3 samevel ocity on themon and earth.
4 it depends on themass of the body.
Explanation:
MOTION IN A STRIGHT LINE
269674
At the maximum height of a body thrown vertically up
1 velocity is not zero butacceleration iszero.
2 accelerationisnotzero but velocity iszero.
3 both acceleration and velocity arezero.
4 both acceleration and velocity arenotzero.
Explanation:
MOTION IN A STRIGHT LINE
269675
A ball is dropped freely while another is thrown vertically downward with an initial velocity ' \(v\) ' from the same point simultaneously. After ' \(t\) ' second they are separated by a distance of
269672
The distances moved by a freely falling body during \(1^{\text {ts }}, 2^{\text {nd }}, 3^{\text {rd }}, \ldots . . . n^{\text {th }}\) second of its motion areproportional to
1 even numbers
2 odd numbers
3 all integral numbers
4 squares of integral numbers
Explanation:
MOTION IN A STRIGHT LINE
269673
To reach the same height on the moon as on the earth, a body must beprojected up with
1 higher velocity onthemon.
2 lower velocityonthemon.
3 samevel ocity on themon and earth.
4 it depends on themass of the body.
Explanation:
MOTION IN A STRIGHT LINE
269674
At the maximum height of a body thrown vertically up
1 velocity is not zero butacceleration iszero.
2 accelerationisnotzero but velocity iszero.
3 both acceleration and velocity arezero.
4 both acceleration and velocity arenotzero.
Explanation:
MOTION IN A STRIGHT LINE
269675
A ball is dropped freely while another is thrown vertically downward with an initial velocity ' \(v\) ' from the same point simultaneously. After ' \(t\) ' second they are separated by a distance of
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MOTION IN A STRIGHT LINE
269672
The distances moved by a freely falling body during \(1^{\text {ts }}, 2^{\text {nd }}, 3^{\text {rd }}, \ldots . . . n^{\text {th }}\) second of its motion areproportional to
1 even numbers
2 odd numbers
3 all integral numbers
4 squares of integral numbers
Explanation:
MOTION IN A STRIGHT LINE
269673
To reach the same height on the moon as on the earth, a body must beprojected up with
1 higher velocity onthemon.
2 lower velocityonthemon.
3 samevel ocity on themon and earth.
4 it depends on themass of the body.
Explanation:
MOTION IN A STRIGHT LINE
269674
At the maximum height of a body thrown vertically up
1 velocity is not zero butacceleration iszero.
2 accelerationisnotzero but velocity iszero.
3 both acceleration and velocity arezero.
4 both acceleration and velocity arenotzero.
Explanation:
MOTION IN A STRIGHT LINE
269675
A ball is dropped freely while another is thrown vertically downward with an initial velocity ' \(v\) ' from the same point simultaneously. After ' \(t\) ' second they are separated by a distance of
