A force of magnitude ‘F’ acts on a body of mass ‘m’ at rest for time ‘t’ which travels a distance ‘x’ and
attains a velocity ‘v’. Prove that,
V = rootover2Fx/m and t = rootover2mx/f
Answers
Answer:
Given : u = 0 Let the velocity of body after t seconds be v .Using v = u + at where a = Fm v = 0 + Fmt v = Ftm Distance covered in another t seconds x
Explanation:
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Answer:
Given : u=0
Given : u=0Let the velocity of body after t seconds be v.
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a=
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= m
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ m
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v=
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= m
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x=
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= m
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F=
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F= t
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F= t 2
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F= t 2
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F= t 2 mx
Given : u=0Let the velocity of body after t seconds be v.Using v=u+at where a= mF ∴ v=0+ mF t ⟹v= mFt Distance covered in another t seconds x=vt ∴ x= mFt t ⟹F= t 2 mx