a gun shoots pellet of mass 00046kg uses a spring k98 Nm the

a gun shoots pellet of mass 0.0046kg uses a spring (k=9.8 N/m). the spring is 0.22meters long and is compressed 0.11meters. The barrel is the same length of the unstretched spring (0.22meter) and it exerts a constant frictional force of 0.25 N on the pellet when the gun is fired. what is the pellet speed in m/s when it exists the gun muzzle (end)?

Conservation of Energy chapter

mass of pellet m = 0.0046kg

spring constant k=9.8 N/m

Unstreached length of spring S=0.22meters

Compressed distance S \' = 0.11meters

barrel length L = S = 0.22meter

frictional force f = 0.25 N

The pellet speed in m/s when it exists the gun muzzle v = ?

Potential energy stored in the spring due to compression of the spring U =(1/2) kS\' ²

U = 0.5 x 9.8 x0.11 ²

= 0.05929 J

Work done on pellet due to frictional force W = f S \'

= 0.25 x 0.11

= 0.0275 J

So, from law of conservation of energy ,

kinetic energy of the pellet at end K = U - W

(1/2)mv ² = 0.05929 J - 0.0275 J

= 0.03179 J

v ² = 2(0.03179) /m

= 0.06358 /0.0046

= 13.821

v = 3.717 m/s

a gun shoots pellet of mass 0.0046kg uses a spring (k=9.8 N/m). the spring is 0.22meters long and is compressed 0.11meters. The barrel is the same length of th

a gun shoots pellet of mass 00046kg uses a spring k98 Nm the

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