Finding the energy lost in a collision as the bullet collides to the block

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Lolagoeslala
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Homework Statement


a 50 g bullet hits and becomes embedded in a wooden block of as 450 g which is at rest on a surface (μ = 0.41) and is attached to a spring bumper. The block and bullet compress the spring bumper a distance of 20 cm. Is the spring constant is 250 N/m
find initial speed of bullet? how much energy has been lost in the collision?

The Attempt at a Solution


a)
mbvb +mwvw=mtvc
(0.05 kg)vb=(0.5kg)(4.47m/s)
vb=44.7m/s

b)
ET2= 1/2(0.5 kg)(4.47 m/s)^2
ET2= 4.995 J

ET1= 1/2(0.05 kg)(44.7m/s)^2
ET1= 49.95 J

ET1-W=ET2
W= 44.957 J

How would i represent this in a percentage?
 
on Phys.org
Where did you get 4.47m/s?
 
frogjg2003 said:
Where did you get 4.47m/s?

i calculated it...

1/2mvc^2=1/2kx^2
1/2(0.5kg)vc^2=1/2(250N/m)(0.2m)^2
0.25vc^2=5J
4.47m/s=vc^2
 
You forgot about friction.
 
frogjg2003 said:
You forgot about friction.

so umm...

1/2mvc^2 - Wf =1/2kx^2
1/2(0.5kg)vc^2 - (0.5kgx9.8m/s^2x0.41)=1/2(250N/m)(0.2m)^2
0.25vc^2 - (2.009J) =5J
5.29m/s=vc

IS THIS CORRECT??
but the speed has increased?
 
That's the force of friction, you need to multiply by the distance traveled.
Yes, the speed has increased. Your original calculation only accounted for the energy in the spring, and not the energy lost to friction. More energy means a higher speed.
 
frogjg2003 said:
That's the force of friction, you need to multiply by the distance traveled.
Yes, the speed has increased. Your original calculation only accounted for the energy in the spring, and not the energy lost to friction. More energy means a higher speed.

1/2mvc^2 - Wf =1/2kx^2
1/2(0.5kg)vc^2 - (0.5kgx9.8m/s^2x0.41x0.2m)=1/2(250N/m)(0.2m)^2
0.25vc^2 - (0.4018J) =5J
4.648m/s=vc

This is the right answer right?
 
Yes.
Now, what is the momentum of the block and bullet together?
 
frogjg2003 said:
Yes.
Now, what is the momentum of the block and bullet together?

i think you are trying to ask what is the final momentum well

mtvc
= (0.5kg)(4.648m/s)
=2.324 kgm/s

now when finding the speed of the bullet i am assuming you do this
mbvb +mwvw=mtvc
(0.05 kg)vb=(0.5kg)(4.648m/s)
vb= 46.48 m/s
 
Right, and now you can determine the energy of the bullet before it stuck the block.
 
frogjg2003 said:
Right, and now you can determine the energy of the bullet before it stuck the block.

so would you just do this??

ET2= 1/2(0.5 kg)(4.648 m/s)^2
ET2= 5.400976 kgm/s

ET1= 1/2(0.05 kg)(46.48m/s)^2
ET1= 54.00976 kgm/s

ET1-W=ET2
W= 48.608784 kgm/s

is this right??
hwow ould i represent this in percentage?
 
Yes, that's right, but why would you need to represent it as a percentage?
 
frogjg2003 said:
Yes, that's right, but why would you need to represent it as a percentage?

Oh wait i don't need to represent it as a percentage..
so this is right OMG! this is?? THANK YOU!