3. Run the simulation by clicking on the pause/play button. While the pendulum bob is oscillating, activate the Period Timer and note the period of oscillation. 4. Keeping the same parameters, make several trials, each time, increasing the acceleration due to gravity by 5 m/s² m until g = 25 m/s². Record your data in the table 3 below. 5. Note that for inverse gravity, all you must do is divide the value 1 by the gravity in column 1. Table 3 Acceleration due to gravity, g, (m/s²) 5 10 15 20 25 Period, T, of Oscillation (s) 2.8220 1.9925 1.6267 1.4081 1.2592 Period Squared (T²) (S²) 7.963684 3.970056 2.646153 1.982746 1.585585 Inverse Gravity (1/g) (s²/m)

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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I need to add the inverse gravity to my chart. How do I calculate the inverse gravity?

**Instructions for Pendulum Simulation:**

3. Run the simulation by clicking on the pause/play button. While the pendulum bob is oscillating, activate the Period Timer and note the period of oscillation.

4. Keeping the same parameters, make several trials, each time increasing the acceleration due to gravity by 5 m/s² until g = 25 m/s². Record your data in Table 3 below.

5. Note that for inverse gravity, all you must do is divide the value 1 by the gravity in column 1.

**Table 3**

| Acceleration due to gravity, g (m/s²) | Period, T, of Oscillation (s) | Period Squared (T²) (s²) | Inverse Gravity (1/g) (s²/m) |
|---------------------------------------|-------------------------------|--------------------------|-------------------------------|
| 5                                     | 2.8220                        | 7.963684                 |                               |
| 10                                    | 1.9925                        | 3.970056                 |                               |
| 15                                    | 1.6267                        | 2.646153                 |                               |
| 20                                    | 1.4081                        | 1.982746                 |                               |
| 25                                    | 1.2592                        | 1.585585                 |                               |
Transcribed Image Text:**Instructions for Pendulum Simulation:** 3. Run the simulation by clicking on the pause/play button. While the pendulum bob is oscillating, activate the Period Timer and note the period of oscillation. 4. Keeping the same parameters, make several trials, each time increasing the acceleration due to gravity by 5 m/s² until g = 25 m/s². Record your data in Table 3 below. 5. Note that for inverse gravity, all you must do is divide the value 1 by the gravity in column 1. **Table 3** | Acceleration due to gravity, g (m/s²) | Period, T, of Oscillation (s) | Period Squared (T²) (s²) | Inverse Gravity (1/g) (s²/m) | |---------------------------------------|-------------------------------|--------------------------|-------------------------------| | 5 | 2.8220 | 7.963684 | | | 10 | 1.9925 | 3.970056 | | | 15 | 1.6267 | 2.646153 | | | 20 | 1.4081 | 1.982746 | | | 25 | 1.2592 | 1.585585 | |
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