Please help, quick and simple. Potential Energy of Spring?

AI Thread Summary
Block A and Block B, with masses of 1.00 kg and 3.00 kg respectively, are compressed against a spring and released on a frictionless surface, resulting in Block B moving at 1.10 m/s. The final speed of Block A is calculated to be 3.30 m/s. To find the potential energy stored in the spring, the conservation of energy principle is applied, equating the potential energy to the combined kinetic energies of both blocks. There was confusion regarding the calculation of kinetic energy, particularly forgetting to square the velocities. Ultimately, the correct approach confirms that the potential energy equals the total kinetic energy after release.
jgibbon2
Messages
7
Reaction score
1
Block A has mass 1.00 kg, and block B has mass 3.00 kg. The blocks are forced together, compressing a spring between them; then the system is released from rest on a level, frictionless surface. The spring, which has negligible mass, is not fastened to either block and drops to the surface after it has expanded. Block B acquires a speed of 1.10 m/s.

a) What is the final speed of block A? Found this answer to be 3.30 m/s

b) How much potential energy was stored in the compressed spring?
- how do you find this answer??
 
Physics news on Phys.org
a level, frictionless surface

How about conservation of energy. The blocks are released from rest where all the mechanical energy is stored in the spring.

Determine the combined kinetic energy of both blocks.
 
first of all thanks for helping...

okay... so i tried (1/2mv^2)a+(1/2mv^2)b=PEspring ... got 9.075 as a wrong answer...
did i mis-understand you?? i only have one more attempt at this problem (it is a mastering physics problem).
 
Momentum is also conserved...

Initial speed for both blocks...is 0...

and you have the masses and the final speed of one block...
 
isn't that how to find the final speed of block A? or am i missing something...
becuase i already have that...
i have all of the information for this problem and just need to find the potential energy that is stored in the spring...
 
I have the same exact problem. I figured that the potential energy would be equal to the combined kinetic energies so I did:

.5*1*4.8 + .5*3*1.6 = 4.8 :( but it is wrong.
 
ok! i got it! i was right i just forgot to square the velocities :)
 
Back
Top