Attach all images and conduct this experiment. Answer all questions please

7.3 Assignment 3: Exploring Energy Loss in Harmonic Motion of Pendulum Overview In this activity, you will investigate how mass affects the energy loss in the harmonic motion of a pendulum. Materials Needed / Resource Bank Camera String Scissor Tool to measure length Three objects to swing on a string. These objects should be similar in size but have significantly different masses. A stable mechanism to hang your pendulum securely and let it swing. This mechanism should be stable enough that the only thing swinging should be the pendulum itself. (Example: A hanging bar) Instructions Answer the below questions one at a time. Make sure to read directions within each question carefully. Questions 1. Background: In an ideal simple harmonic motion of a pendulum, the pendulum swings continuously back and forth because there is no friction experienced that causes energy to be lost from the system. However, we live in a world where there is friction. Thus, the pendulum will swing less and less due to energy loss from friction. a) Take a photo of your three objects and insert below. b) Hypothesis: Which object do you think will cause the most energy loss as it swings back and forth? Which object do you think will cause the least energy loss? Explain your reasoning. 2. Results: Collect data by following the below procedure Procedure 1. Tie a string around each object so that you can hang each object and swing it. The objects should be hung from the exact same length. 2. Hang one of the objects. Take a photo of this setup and insert below. 3. Hold the object up to an initial height, making sure the string is tight. See diagram below. 4. Carefully let the object go and observe it swinging back and forth. Try different heights to find the highest starting point at which the object doesn't bounce around, but makes smooth back and forth swinging motions. 5. Figure out a way to remember this initial position (perhaps you measure the height from the ground) 6. Hold the object at the chosen initial height (making sure the string is tight), carefully let it go and allow it to swing back and forth. Count the number of swings it makes until it stops swinging. 7. Repeat step 6 for the other two objects. Make sure all objects are hung with the same exact length and dropped from the same initial position. 8. Create a data table to organize your results. 3. Do the results from your experiment support or not support your hypothesis? Explain by referencing results. 4. What would you change about this experiment in the future to improve the reliability of the results? Explain why this change would improve the experiment