The formula to calculate the Total Torque is:
\[ T = \frac{\mu_{\text{friction}} \cdot W_t \cdot D_{\text{shaft}} \cdot h_{\text{Slant}}}{3} \]
Total Torque is the measure of the force that can cause an object to rotate about an axis. Force is what causes an object to accelerate in linear kinematics.
Let's assume the following values:
Using the formula:
\[ T = \frac{0.4 \cdot 24 \cdot 0.5 \cdot 1.5}{3} = 2.4 \text{ Nm} \]
| Coefficient of Friction (μfriction) | Load Transmitted Over Bearing Surface (Wt) | Shaft Diameter (Dshaft) | Slant Height (hSlant) | Total Torque (T) |
|---|---|---|---|---|
| 0.35 | 24 N | 0.5 m | 1.5 m | 2.100000000000 Nm |
| 0.36 | 24 N | 0.5 m | 1.5 m | 2.160000000000 Nm |
| 0.37 | 24 N | 0.5 m | 1.5 m | 2.220000000000 Nm |
| 0.38 | 24 N | 0.5 m | 1.5 m | 2.280000000000 Nm |
| 0.39 | 24 N | 0.5 m | 1.5 m | 2.340000000000 Nm |
| 0.4 | 24 N | 0.5 m | 1.5 m | 2.400000000000 Nm |
| 0.41 | 24 N | 0.5 m | 1.5 m | 2.460000000000 Nm |
| 0.42 | 24 N | 0.5 m | 1.5 m | 2.520000000000 Nm |
| 0.43 | 24 N | 0.5 m | 1.5 m | 2.580000000000 Nm |
| 0.44 | 24 N | 0.5 m | 1.5 m | 2.640000000000 Nm |
