gravitational force acts on all objects in proprortion to their masses why then a heavy object does not fall faster than a lighter object
Šhįvãm079:
hiii
shreya
hi
hlo
in which standard you are
9 standard
and in which u are
Answers
Answered by
0
hay your answer is in this paragraph.
Attachments:
no which book it is
it is the standard book of Cordova series.
ok
but i have to find it form my book of ncert
okay
thnx
Answered by
3
Weight of an object on surface of earth = mg
where 'm' is mass and 'g' is acceleration due to gravity .
Gravitational force acting on the object F = GM×m÷R^2
Here M is mass of earth, R is radius of earth i.e. distance between the objects and G is gravitational constant
Weight of object 'mg' = Gravitational force F acting on it
mg = GM×m÷R^2
g = GM÷R^2
From above expression it is clear , 'g' acceleration due to gravity is independent of mass of an object and all the objects- irrespective of being heavy or light experience the same acceleration due to gravity, hence fall with same speed from a given height.
hope it helps you. . . . mark as a brainlist. . . . follow me. . . . .
where 'm' is mass and 'g' is acceleration due to gravity .
Gravitational force acting on the object F = GM×m÷R^2
Here M is mass of earth, R is radius of earth i.e. distance between the objects and G is gravitational constant
Weight of object 'mg' = Gravitational force F acting on it
mg = GM×m÷R^2
g = GM÷R^2
From above expression it is clear , 'g' acceleration due to gravity is independent of mass of an object and all the objects- irrespective of being heavy or light experience the same acceleration due to gravity, hence fall with same speed from a given height.
hope it helps you. . . . mark as a brainlist. . . . follow me. . . . .
thnx in which standard u are
Similar questions