Solving for Distance: Finding Work from Mass, Incline & Spring

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SUMMARY

The discussion focuses on calculating the distance a 3kg mass travels down a 30-degree frictionless incline before compressing a spring with a spring constant of 400 N/m by 0.2 meters. The force exerted by the spring is calculated as 80N using Hooke's Law (F = kx). The energy imparted to the spring can be determined using the potential energy formula for springs (E = 0.5kx²) and the conservation of energy principle, equating the gravitational potential energy of the mass at the top of the incline to the potential energy stored in the spring. The key takeaway is to apply energy conservation and trigonometry to solve for the distance traveled.

PREREQUISITES
  • Understanding of Newton's laws of motion
  • Familiarity with Hooke's Law and spring constants
  • Knowledge of gravitational potential energy (E = mgy)
  • Basic trigonometry for calculating distances on inclines
NEXT STEPS
  • Study the conservation of energy in mechanical systems
  • Learn about the relationship between force, mass, and acceleration
  • Explore advanced applications of Hooke's Law in real-world scenarios
  • Investigate the effects of friction on inclined planes and spring systems
USEFUL FOR

Students and professionals in physics, mechanical engineering, and anyone interested in solving problems related to energy conservation and dynamics of mass-spring systems.

UrbanXrisis
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there's a 3kg mass on a 30 degree frictionless incline. The mass travels d distance and hits a spring with k=400N/m. The spring contracts 0.2 m and brings the block to a stop.

I need to find the distance the block traveled.

F=kx
F=400*.2
F=80N

so the block has to hit with 80N.
what formula would I use to get distance? I am confused because if I used any energy formula (which I know I will have to) the question is in Joules instead of Newtons. What should I do?
 
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You can solve this with energy.
At any point on the block's path you can find its energy with the equation
E = .5kx^2 + .5mv^2 + mgy

Consider when the spring has been fully compressed to be y=0. Can you do it from there? Note: y does not equal d.
 
are you saying that:
E=80N+.5mv^2 ?
 
Heres the easiest way to solve the problem:
We know the spring compressed .2 meters. How much energy did the block impart to the spring to do this? We can find out using the potential energy of a spring formula E = .5kx^2 Under the conservation of energy, the potential energy of the block at the top of the ramp must be equal to the PE of the spring. Use E = mgy to find y and then use trigonometry to find the hypotonuese of the triangle.
Remember : the key to sucsess in physics is thinking; not memorizing how to do every possible problem.
 

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