A ball with a mass of #400 g# is projected vertically by a spring loaded contraption. The spring in the contraption has a spring constant of #25 (kg)/s^2# and was compressed by #3/7 m# when the ball was released. How high will the ball go?

1 Answer
Pankaj Solanki
Sep 26, 2017

Potential Energy stored in spring if it compressed by x meter
#U=1/2 kx^2#
where k#="spring constant"#
#x="Compression"#
#m=0.4 kg#
#U=1/2(25)(3/7)^2=(25xx9)/(2xx49)#

if spring release the ball will get kinetic energy which is equal to the potential energy of spring. (Conservation of energy)
#K=1/2mv^2=(25xx9)/(2xx49)#
#=>0.4v^2=(25xx9)/(49)#
#=>v^2=(25xx9)/(0.4xx49)=(25xx9xx10)/(4xx49)#
#=>v=sqrt((25xx9xx10)/(4xx49)#
#=>v=(5xx3xxsqrt10)/(2xx7)=15/14sqrt10#

To find the height we use Newton's Equation
#v^2=u^2+2as#
where #u=#initial velocity #=15/14sqrt10#
#v="final velocity"=0#
#a=-g="acceleration due to gravity"=-9.8m/s^2#

Hence #0^2=(15/14)^2xx10-2(9.8)s#
#s=(15/14)^2(10/(2xx9.8))=2250/3841.6=0.585 m#

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