5. A student conducts an experiment in which a ball is spun in a vertical circle from a string oflength 1 m, as shown in the figure. The student uses the following equation to predict the force of tension exerted on the ball whenever it reaches the lowest point of its circular path at a known tangential speed for various trials. Frenaton - m *0.5 kg When the experiment is conducted, the student uses a force probe to measure Side View the actual force of tension exerted on the ball. Tangential Speed (:) Predicted Force of Tension (N) Actual Force of Tension (N) Trial 0.5 5.5 2 2 3 3 4.5 9.5 Why is the predicted force of tension difforent than the actual force of tension? Answer and explain.

5. A student conducts an experiment in which a ball is spun in a vertical circle from a string oflength 1 m, as shown in the figure. The student uses the following equation to predict the force of tension exerted on the ball whenever it reaches the lowest point of its circular path at a known tangential speed for various trials. Frenaton - m *0.5 kg When the experiment is conducted, the student uses a force probe to measure Side View the actual force of tension exerted on the ball. Tangential Speed (:) Predicted Force of Tension (N) Actual Force of Tension (N) Trial 0.5 5.5 2 2 3 3 4.5 9.5 Why is the predicted force of tension difforent than the actual force of tension? Answer and explain.

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Question

A student conducts an experiment in which a ball is spun in a vertical circle from a string of length 1 m, as shown in the figure. The student uses the following equation to predict the force of tension exerted on the ball whenever it reaches the lowest point of its circular path at a known tangential speed for various trials.

When the experiment is conducted, the student uses a force probe to measure the actual force of tension exerted on the ball.

Why is the predicted force of tension different than the actual force of tension?