Problem 1) Elon Musk has personally chosen you to travel to the newly discovered planet ice planet Hoth. Before leaving on your mission, you measure your Earth weight to be 742 N. When you land on Hoth, you weigh yourself again and find your Hoth weight to be 924 N. Part A What is the acceleration due to gravity on Hoth? Problem 1 Continued) drone pull you with a rope. When the drone pulls on you via the rope with a force of magnitude 922 N at an angle of 17.0° above the horizontal, you accelerate forward at 3.14 m/s². While you are moving, you can assume that there is a force of kinetic friction between your skis and the surface of the liquid methane lake. You can also assume that your skis maintain contact with the surface of the liquid methane lake for the entirety of your motion. To travel on Hoth, you will “water ski" along its flat liquid methane lakes by having a Part B Draw a complete free body diagram of you when you are "water skiing" along the flat liquid methane lake. Label the types of forces and their directions. You do not need to include values for this part. Part C How hard does the drone pull on you in the horizontal direction? How hard does the drone pull on you in the vertical direction? Part D Calculate the normal force that the surface of the liquid methane lake exerts on you. Part E Calculate the coefficient of kinetic friction between your skis and the liquid methane lake.

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Problem 1) Elon Musk has personally chosen you to travel to the newly discovered planet ice planet Hoth. Before leaving on your mission, you measure your Earth weight to be 742 N. When you land on Hoth, you weigh yourself again and find your Hoth weight to be 924 N. Part A What is the acceleration due to gravity on Hoth? Problem 1 Continued) To travel on Hoth, you will "water ski" along its flat liquid methane lakes by having a drone pull you with a rope. When the drone pulls on you via the rope with a force of magnitude 922 N at an angle of 17.0° above the horizontal, you accelerate forward at 3.14 m/s2. While you are moving, you can assume that there is a force of kinetic friction between your skis and the surface of the liquid methane lake. You can also assume that your skis maintain contact with the surface of the liquid methane lake for the entirety of your motion. Part B Draw a complete free body diagram of you when you are "water skiing" along the flat liquid methane lake. Label the types of forces and their directions. You do not need to include values for this part. Part C How hard does the drone pull on you in the horizontal direction? How hard does the drone pull on you in the vertical direction? Part D Calculate the normal force that the surface of the liquid methane lake exerts on you. Part E Calculate the coefficient of kinetic friction between your skis and the liquid methane lake.