STATEMENT-1: An astronaut in an orbiting spac | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(A) An astronaut in an orbiting space station is in a state of continuous free-fall towards the Earth due to gravity,which provides the necessary cent

Vedclass · Accepted Answer

$STATEMENT-1$ is True,$STATEMENT-2$ is True; $STATEMENT-2$ is a correct explanation for $STATEMENT-1$.

Vedclass · Answer

(A) An astronaut in an orbiting space station is in a state of continuous free-fall towards the Earth due to gravity,which provides the necessary centripetal force for orbital motion.Since the astronaut and the space station are falling with the same acceleration (the acceleration due to gravity at that altitude),there is no normal reaction force between them.This absence of a normal reaction force is perceived as weightlessness.Therefore,$STATEMENT-1$ is true.An object moving around the Earth under the influence of only the Earth's gravitational force is indeed in a state of 'free-fall',as it is accelerating towards the center of the Earth.Therefore,$STATEMENT-2$ is true.Since the state of free-fall is the direct physical reason for the sensation of weightlessness experienced by the astronaut,$STATEMENT-2$ is the correct explanation for $STATEMENT-1$.

$STATEMENT-1$: An astronaut in an orbiting space station above the Earth experiences weightlessness.
$STATEMENT-2$: An object moving around the Earth under the influence of Earth's gravitational force is in a state of 'free-fall'.

Similar Questions

$A$ geostationary satellite is taken to a new orbit such that its distance from the centre of the earth is doubled. Find the time period of this satellite in the new orbit.

Shown are several curves [fig. $(a)$,$(b)$,$(c)$,$(d)$,$(e)$,$(f)$]. Explain with reason,which ones amongst them can be possible trajectories traced by a projectile (neglect air friction).

Which one of the following statements is correct?

$A$ double star is a system of two stars rotating about their centre of mass only under their mutual gravitational attraction. Let the stars have masses $m$ and $2m$ and their separation be $l$. Their time period of rotation about their centre of mass will be proportional to:

Vedclass Test Series

Exam Paper Generator

Online Exam Module

$STATEMENT-1$: An astronaut in an orbiting space station above the Earth experiences weightlessness.$STATEMENT-2$: An object moving around the Earth under the influence of Earth's gravitational force is in a state of 'free-fall'.