The gravitational force exerted on a baseball is #-F_ghatj#. A pitcher throws the ball, initially at rest, with velocity #v hat i# by uniformly accelerating it along a horizontal line for a time interval of #t#. What force does he exert on the ball?

1 Answer
A08
May 2, 2018

Since motion along the directions #hatiand hatj# are orthogonal to each other these can be treated separately.

  1. Force along #hati#
    Using Newtons Second Law of motion
    Mass of baseball #=F_g/g#
    Using the kinematic expression for uniform acceleration

    #v=u+at#
    Inserting given values we get
    #v=0+at#
    #=>a=v/t#
    #:.# Force #=F_g/gxxv/t#

  2. Force along #hatj#
    It is given that there is no motion of the baseball in this direction. As such net force is #=0#
    #F_"net"=0=F_"applied"+(-F_g)#
    #=>F_"applied"=F_g#

Total force exerted by the pitcher on the ball #=(F_gv)/(g t)hati+F_ghatj#

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