How will the pushing force and frictional force balance each other during a uniform motion along a straight line, if to move the object, pushing force has to be greater than the frictional force i.e how the pushing force is greater than the frictional force if both balance each other and net force is zero?
Answers
Answered by
0
If the pushing force and opposing are same in magnitude then they are cancel each other and the net external force of that particle will be zero because they are opposite in direction
But if it to move the object than we have to exert lagrger force than the opposing force (frictional force) then the object will alowed to move and the net external force of that particle is nonzero( unbalance)...
But if it to move the object than we have to exert lagrger force than the opposing force (frictional force) then the object will alowed to move and the net external force of that particle is nonzero( unbalance)...
achalanand4467:
but how will the net force is zero if pushing force is greater than frictional force
no no when the exerting force and opposing force are equal in their magintude and opposite in direction then only the net external force of that particle will be zero
but if the pushing force and opposing force are variable than the net external force is non zero and therefore called unbalanced forces
understand???
Similar questions