Energy Transfers Pendulum 5
| First | First | Last | Results A | A Pendulum with the mass of | reaching a height of | A) Calculate the Gravitational Potential Energy Store? | Correct Answer A | Round Answer A | Results A | A) Show your workings: | B) Assuming that all of the gravitational potential energy is converted into kinetic energy, state the maximum kinetic energy of the pendulum? | Results B | C) Using your answer in part b, calculate the maximum speed the pendulums mass reaches during its swing? | Correct Answer C | SQRT Answer C | Round Answer C | Results C | C) Show your workings: |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ppefmh | Ed | Garstin | Incorrect | 0.2 | 377 | 555 | 738.9200000000001 | 738.92 | Incorrect | dgfhf | 6345 | Incorrect | 654 | 84.15119363395225 | 9.173395970628993 | 9.173 | Incorrect | hfghfgh |
| First | First | Last | Results A | A Pendulum with the mass of | reaching a height of | A) Calculate the Gravitational Potential Energy Store? | Correct Answer A | Round Answer A | Results A | A) Show your workings: | B) Assuming that all of the gravitational potential energy is converted into kinetic energy, state the maximum kinetic energy of the pendulum? | Results B | C) Using your answer in part b, calculate the maximum speed the pendulums mass reaches during its swing? | Correct Answer C | SQRT Answer C | Round Answer C | Results C | C) Show your workings: |