Eksperimentti: hyppykorkeuden määrittäminen impulssilla: Difference between revisions

From wikiluntti
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\begin{align}
\begin{align}
m &= 880 N /9.81 = 89.7 kg \\
m &= 880 N /9.81 = 89.7 kg \\
J &= 700 Ns - 89.7 kg \times 9.81 \times 0.2895 s = 700 Ns - 254.75 Ns = 445.25 Ns
J &= 464 Ns - 89.7 kg \times 9.81 \times 0.2895 s = 464 Ns - 254.75 Ns = 209.25 Ns
\end{align}
\end{align}
</math>
</math>
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\begin{align}
\begin{align}
h &= \frac{J^2}{2gm^2} \\
h &= \frac{J^2}{2gm^2} \\
   &= \frac{(445.25 Ns)^2}{2 \times 9.81 m/s^2 \times (89.7 kg)^2 } \\
   &= \frac{(209.25 Ns)^2}{2 \times 9.81 m/s^2 \times (89.7 kg)^2 } \\
   &= \frac{198 247. 5625}{315 728.5716} \\
   &= \frac{43785.5625}{315 728.5716} \\
   &= 0.63 m\\
   &= 0.139 m\\
\end{align}
\end{align}
</math>
</math>


The takeoff velocity is <math>v_0 = \frac Jm = \frac{445.25 Ns}{89.7 kg} = 4.96 m/s</math>.
The takeoff velocity is <math>v_0 = \frac Jm = \frac{445.25 Ns}{89.7 kg} = 2.33 m/s</math>.


== Example 2: Zero the force plate ==
== Example 2: Zero the force plate ==

Revision as of 18:16, 3 May 2022

Introduction

Force exerted on the force plate

Jumping on the force plate you can feel the force. We use time of flight method to estimate the height of the jump.

Theory

Impulse . Actually is our takeoff speed because , and we have . Because and thus we have because and . However, for the velocity we have and at the maximum height we have that , and thus and . Combining these two we have

Note that , and thus the equation gives the correct equation.

Example

The example gives

and thus we have

The takeoff velocity is .

Example 2: Zero the force plate

References

https://www.thehoopsgeek.com/the-physics-of-the-vertical-jump/

https://www.brunel.ac.uk/~spstnpl/LearningResources/VerticalJumpLab.pdf