Calculate Power/Mass Ratio: Tips & Guide

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SUMMARY

The power/mass ratio of a locust can be calculated using the formula Power = Force x Velocity. In this discussion, the locust's mass is 2.5g (0.0025kg), and it accelerates to a speed of 3.0 m/s in 25 milliseconds (0.025s). The correct calculations yield a force of 0.3N and a power output of 0.45W, resulting in a power/mass ratio of 180 J/kg. The initial miscalculations regarding speed and time were clarified by participants, emphasizing the importance of accurate values in physics calculations.

PREREQUISITES
  • Understanding of basic physics concepts such as force, mass, and acceleration.
  • Familiarity with the equations of motion, specifically F = ma and Power = Force x Velocity.
  • Knowledge of unit conversions, particularly between grams and kilograms.
  • Ability to perform calculations involving time in seconds and milliseconds.
NEXT STEPS
  • Research the principles of calculating power in biological systems.
  • Learn about the physics of acceleration and its impact on performance metrics.
  • Explore the significance of power-to-weight ratios in biomechanics.
  • Investigate how to apply the equations of motion in real-world scenarios.
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Students studying physics, biologists analyzing insect locomotion, and engineers interested in biomechanics and performance optimization.

almohandes
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how do i calculate power\mass ratio of something.
 
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Divide power by mass?

Other than that, your question is not very clear. Are you talking about a particular problem in which power is some function of mass?
 
ok,

the problemo:
The hind legs of a locust are extremely powerful!. it takes off with a speed of 3.0ms-1, the acceleration takes place in 25 milliseconds (25ms). The locusts mass is 2.5g.

the Question states:
What is the power/mass ratio of the locust (in J kg-1)?
 
to solve this one you need to do a simple calculation.
Power = Force x Velocity
acceleration = v2 - v1 / t
= (0.30m/s - 0m/s) / 0.0025s
= 120m/s^2
F = ma
= (0.0025kg)(120m/s^2)
= 0.3N
P = FV
= (0.3N)(0.30m/s)
= 0.09J/s or W
now the power is 0.09W and mass is 0.0025kg, the ratio is 36:1. Thats my calculation, if anybody finds anything wrong, please correct me, I hope I've been a help.
 
yes, thank you.
 
The basic idea is correct. But the speed is 3 m/s, not 0.3; and the time is 0.025s, not 0.0025.
Nenad said:
F = ma
= (0.0025kg)(120m/s^2)
= 0.3N
Right.
P = FV
= (0.3N)(0.30m/s)
= 0.09J/s or W
Two problems: (1) as stated above, the speed is 3 m/s, (2) P = FV, where V = average speed, which is 3/2 m/s, not 3. So power = 0.45 J/s.
 
he siad speed was 3m/s-1, I was assuming he meant to time 10^-1
 

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