Please complete table by each gram (LinearAcceleration, Angular acceleration, Tension, Torque)with given data and formulas on the papers. There isn’t anything else that goes with this except for the stuff in the pictures ### Physics Experiment DataThis table presents various measurements relevant to the experimental setup involving a shaft, threaded component, and other related masses. Here's the detailed breakdown:- **Mass of Shaft:** - **Mass:** 0.3924 kg- **Radius of Shaft:** - **Radius:** 0.00925 m- **Mass of Threaded:** - **Mass:** 0.0628 kg- **Length of Threaded:** - **Length:** 0.34 m- **Mass of 0.1-kg Mass:** - **Mass:** 0.1 kg- **Distance \( d \) from Center of Shaft to Center of Mass:** - **Distance:** 16.25 cm or 1.625 m- **Mass of 4 Wing Nuts:** - **Mass:** 0.06234 kg- **Distance \( d \) from:** - **Distance:** 16.25 cm or 1.625 mNote: Ensure accuracy while conducting experiments with associated equipment, considering these measurements for proper calculation and analysis. # Educational Website Content: Physics Lab Sheet## PHY 1152 – Principles of Physics Laboratory### Rotational Inertia of Wing NutsThe equation for the rotational inertia of the 4 wing nuts is given by:\[ I_{\text{wingnuts}} = m_{\text{wingnuts}} \cdot d^2 \]**Variables:**- \( M = \text{mass} \)- \( R = \text{radius} \)- \( m_{\text{t}} = \text{mass of thread} \)- \( L = \text{length} \)- \( d = \text{distance from object to center} \)- \( H = \text{height of mass to floor} \)### Calculation TableThe following table summarizes the calculations for each moment of inertia:| Component | Mass (kg) | Inertia \( (kg \cdot m^2) \) ||---------------|-----------|-----------------------------|| \( I_{\text{shaft}} \) | | 0.00001678 || \( I_{\text{thread rod}} \) | | 0.000378012 || 0.1 kg mass | | 0.00528125 || 4 wing nuts | | 0.0006166 || Total | | 0.0094605 |### Data Collection and AnalysisFor different weights, the experiments yielded the following results:| Mass \( m \) (kg) | Time 1 (s) | Time 2 (s) | Average Time \( t \) (s) | Linear Acceleration \( a \) \( (m/s^2) \) | Angular Acceleration \( (\text{rad/s}^2) \) | Tension \( T \) (N) | Torque \( (\text{m} \cdot \text{N}) \) ||------------------|------------|------------|--------------------------|-------------------------------------------|----------------------------------------------|-------------------|------------------------------------|| 0.050 (50 grams) | 25.49 | 25.87 | 37.88 | | | | || 0.100 (100 grams)| 17.94 | 17.39 | 25.75 | | | |

Given: Data is provided, Radius of shaft, R=0.00925 m Height of table, H=0.76 m Acceleration due to…

Please complete table by each gram (Linear Acceleration, Angular acceleration, Tension, Torque) with given data and formulas on the papers. There isn’t anything else that goes with this except for the stuff in the pictures

Please complete table by each gram (Linear Acceleration, Angular acceleration, Tension, Torque) with given data and formulas on the papers. There isn’t anything else that goes with this except for the stuff in the pictures

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### Physics Experiment Data

This table presents various measurements relevant to the experimental setup involving a shaft, threaded component, and other related masses. Here's the detailed breakdown:

- **Mass of Shaft:**
- **Mass:** 0.3924 kg

- **Radius of Shaft:**
- **Radius:** 0.00925 m

- **Mass of Threaded:**
- **Mass:** 0.0628 kg

- **Length of Threaded:**
- **Length:** 0.34 m

- **Mass of 0.1-kg Mass:**
- **Mass:** 0.1 kg

- **Distance \( d \) from Center of Shaft to Center of Mass:**
- **Distance:** 16.25 cm or 1.625 m

- **Mass of 4 Wing Nuts:**
- **Mass:** 0.06234 kg

- **Distance \( d \) from:**
- **Distance:** 16.25 cm or 1.625 m

Note: Ensure accuracy while conducting experiments with associated equipment, considering these measurements for proper calculation and analysis.

# Educational Website Content: Physics Lab Sheet

## PHY 1152 – Principles of Physics Laboratory

### Rotational Inertia of Wing Nuts

The equation for the rotational inertia of the 4 wing nuts is given by:

\[ I_{\text{wingnuts}} = m_{\text{wingnuts}} \cdot d^2 \]

**Variables:**
- \( M = \text{mass} \)
- \( R = \text{radius} \)
- \( m_{\text{t}} = \text{mass of thread} \)
- \( L = \text{length} \)
- \( d = \text{distance from object to center} \)
- \( H = \text{height of mass to floor} \)

### Calculation Table

The following table summarizes the calculations for each moment of inertia:

| Component | Mass (kg) | Inertia \( (kg \cdot m^2) \) |
|---------------|-----------|-----------------------------|
| \( I_{\text{shaft}} \) | | 0.00001678 |
| \( I_{\text{thread rod}} \) | | 0.000378012 |
| 0.1 kg mass | | 0.00528125 |
| 4 wing nuts | | 0.0006166 |
| Total | | 0.0094605 |

### Data Collection and Analysis

For different weights, the experiments yielded the following results:

| Mass \( m \) (kg) | Time 1 (s) | Time 2 (s) | Average Time \( t \) (s) | Linear Acceleration \( a \) \( (m/s^2) \) | Angular Acceleration \( (\text{rad/s}^2) \) | Tension \( T \) (N) | Torque \( (\text{m} \cdot \text{N}) \) |
|------------------|------------|------------|--------------------------|-------------------------------------------|----------------------------------------------|-------------------|------------------------------------|
| 0.050 (50 grams) | 25.49 | 25.87 | 37.88 | | | | |
| 0.100 (100 grams)| 17.94 | 17.39 | 25.75 | | | |

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

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