Mechanical Collision: Measuring Sound & Heat

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SUMMARY

The discussion focuses on the measurement of sound and heat produced during mechanical collisions, emphasizing the conservation of energy principle. Participants highlight that in perfectly inelastic collisions, kinetic energy is transformed into other forms, including heat and sound. The challenge lies in quantifying the exact distribution of energy into these forms using mechanical variables such as mass and speed. Key constants like 4.2 Joules per calorie are referenced for converting energy to heat, while sound energy is noted to vary significantly based on the type of sound produced.

PREREQUISITES
  • Understanding of mechanical collisions and energy conservation principles
  • Familiarity with thermodynamics, specifically heat energy conversion
  • Basic knowledge of acoustics and sound energy measurement
  • Mathematical proficiency in applying equations related to kinetic energy
NEXT STEPS
  • Research the equations governing perfectly inelastic collisions in classical mechanics
  • Explore thermodynamic principles related to heat transfer and energy conversion
  • Study sound energy quantification methods and their applications in acoustics
  • Investigate material constants and their role in energy dissipation during collisions
USEFUL FOR

Physicists, mechanical engineers, and students studying mechanics or thermodynamics who are interested in the energy transformations during mechanical collisions.

Lukeblackhill
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Morning!

My question is this: If we consider a situation of mechanical collision, in the real world we shall observe certain loss of energy into heat or sound. Can we find mathematical equations to measure the amount of sound or heat produced using only mechanical variables, such as mass, speed, etc, considering such sound and heat were produced by an mechanical collision?

Thank you!

Cheers.
 
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You need some material constants, their shape and so on. In general this is a difficult problem.
 
Energy is conserved. If the collision is perfectly inelastic, one can know how much kinetic energy has disappeared. That energy has to go someplace. The hard part is determining how much goes into heat, how much into sound and how much into permanent deformation or other results. (i.e. what @Wrichik Basu said)
 
But in principle, would it be possible to arrange mechanical variables such as mass and speed to define heat, sound, etc?
 
Lukeblackhill said:
But in principle, would it be possible to arrange mechanical variables such as mass and speed to define heat, sound, etc?
One can define a quantity of heat in terms of the associated energy. 4.2 Joules per calorie if I remember my high school chemistry. Same for sound -- though it it does not take much energy to make a loud sound. And it does not help distinguish between a clank, a crash, a thud, a ding or a gong.
 
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jbriggs444 said:
One can define a quantity of heat in terms of the associated energy. 4.2 Joules per calorie if I remember my high school chemistry. Same for sound -- though it it does not take much energy to make a loud sound. And it does not help distinguish between a clank, a crash, a thud, a ding or a gong.
Thank you @jbriggs444 , that was enlightening.
 

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