Finding Tension Force in Cables Supporting a Traffic Light

What is the tension force (T) in each cable supporting a 32 lb traffic light if angle 1 is 34 degrees and the vertical component of the tension force (Tz) is 76N?

To find the tension force in the cables supporting a 32 lb traffic light, we need to consider the forces acting on the traffic light. The problem statement tells us that angle 1 is 34 degrees, and the magnitude of the vertical component of the tension force (Tz) is 76N. To solve for the tension force (T), we can use trigonometry. The sine function relates the vertical component of a force to the magnitude of the force itself. In this case, we can use the sine function to relate Tz to T. We start by writing the equation: sin(angle 1) = vertical force / tension force We plug in the given values: sin(34) = Tz / T Next, we rearrange the equation to solve for T: T = Tz / sin(angle 1) Plugging in the values we know, we get: T = 76N / sin(34) Using a calculator, we find that sin(34) is approximately 0.5592. Plugging in this value, we can solve for T: T ≈ 76N / 0.5592 T ≈ 136.08N Therefore, the tension force in each cable is approximately 136.08N. The tension force in each cable supporting the 32 lb traffic light is approximately 136.08N.

Understanding Tension Force in Cables Supporting a Traffic Light

When dealing with scenarios where objects are suspended or supported by cables or ropes, it is essential to analyze the tension forces acting on these supports. In the case of a 32 lb traffic light suspended by three cables, we are interested in determining the tension force (T) in each cable. This tension force is crucial for ensuring the stability and equilibrium of the traffic light.

Trigonometry in Tension Force Analysis:

Trigonometry provides us with the necessary tools to analyze and calculate the tension forces in the cables supporting the traffic light. By breaking down the forces into their components, we can use trigonometric functions such as sine, cosine, and tangent to relate the forces and angles involved in the system.

Vertical Component of Tension Force:

One of the key components in analyzing tension forces in this scenario is the vertical component of the tension force, denoted as Tz. This vertical force is responsible for supporting the weight of the traffic light in the vertical direction. Given that Tz is 76N, we can use this information to calculate the overall tension force (T) in each cable.

Calculation Process:

By applying the sine function and considering the angle 1 of 34 degrees, we can establish a relationship between the vertical force (Tz) and the tension force (T) in one of the cables. Through rearranging the equation and substituting the known values, we arrive at the value of approximately 136.08N for the tension force in each cable.

Understanding how to calculate tension forces in scenarios involving suspended objects is essential for engineers, architects, and professionals working in structural design. By mastering these principles of trigonometry and force analysis, individuals can ensure the safety and stability of various structures.