You are visiting your cousins for Christmas in New Hampshire where it is freezing. They are crazy. They get the idea to spray water on the roof so it will become very slippery enabling you all to slide off of it in a sled (metal box). The frozen water on the roof has essentially removed all friction. If the angle of the roof is 20 degrees with respect to the horizontal, and (starting from rest) you slide for a distance of 5 meters before reaching the edge, and if the edge of the roof is 6 meters above the ground, how far from the edge will you travel in the x direction before you hit the ground? g= 9.8 m/s?

Can you help me solve and understand this practice problem please? A step by step explanation would be appreciated. Thank you!

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**Title: Exploring Physics with a Real-Life Scenario** **Description:** Imagine you're visiting your cousins in New Hampshire during Christmas, where the temperatures are freezing. They have a wild idea to make the roof slippery by spraying water on it, hoping you'll slide off using a sled (or metal box). **Experiment Setup:** - The frozen water on the roof removes all friction. - The roof is at a 20-degree angle to the horizontal. - You start sliding from rest and cover a distance of 5 meters before reaching the edge of the roof. - The roof's edge is 6 meters above the ground. **Problem to Solve:** How far from the edge will you travel horizontally (in the x-direction) before hitting the ground? **Given:** - Gravitational acceleration, \( g = 9.8 \, \text{m/s}^2 \). **Diagram Explanation:** The diagram illustrates a person sitting on a sloped roof. The roof forms a right triangle with the horizontal, indicating the 20-degree angle. The vertical distance (altitude) from the edge of the roof to the ground is shown as 6 meters. **Objective:** Determine the horizontal distance traveled from the roof edge before impact with the ground.