An oxygen molecule of mass 5.32 x 10^-26 kg, moving at 6.0 x 10^4 m/s strikes a wall at 90 degrees and rebounds without loss of speed. If the duration of the impact is 10^-9 seconds, calculate..?

(a) the change in momentum of the molecule
(b) the force exerted by the wall on the molecule
(c) the force exerted by the molecule on the wall

1 Answer
Oct 23, 2016

Given

#m->"Mass of the molecule"=5.32xx19^"-26"kg#

#u->"Velocity of the molecule before"#
#" bombardment"=-6.0xx10^4m/s#

#v->"Velocity of the molecule after"#
#" bombardment"=+6.0xx10^4m/s#

#t->"Duration of impact"=10^-9s#

(a) So the change in momentum
#mv-"mu"=2xx5.32xx10^"-26"xx6xx10^4#

#=63.84xx10^"-22"" kgm/s"#

(b) The force exerted by the wall on the molecule is
#="change in momentum"/"time"#

#=(63.84xx10^"-22"" kgm/s")/(10^-9s)#
#=63.84xx10^-13N#

(c) The molecule will exerts same amount of reactionary force on the wall in oppsite direction.

So this force will be #=-63.84xx10^-13N#