A pistol that fires a signal flare gives it an initial velocity (muzzle velocity) of 155 m/s at an angle of 64.0 degrees above the horizontal. You can ignore air resistance.For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of A home-run hit. Part A: Find the flare's maximum height if it is fired on the level salt flats of Utah. Express your answer in meters. Part B: Find the distance from its firing point to its landing point if it is fired on the level salt flats of Utah. Express your answer meters. Part C: Find the flare's maximum height if it is fired over the flat Sea of Tranquility on the Moon, where g= 1.62m/s^2. Express your answer in meters. Part D: Find the distance from its firing point to its landing point if it is fired over the flat Sea of Tranquility on the Moon, where 93D1.62m/s^2.

Please answer all parts of question 1. I appreciate it!

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**Projectile Motion Problem Set** A pistol that fires a signal flare gives it an initial velocity (muzzle velocity) of 155 m/s at an angle of 64.0 degrees above the horizontal. You can ignore air resistance. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of a home-run hit. **Part A:** Find the flare's maximum height if it is fired on the level salt flats of Utah. *Express your answer in meters.* **Part B:** Find the distance from its firing point to its landing point if it is fired on the level salt flats of Utah. *Express your answer in meters.* **Part C:** Find the flare's maximum height if it is fired over the flat Sea of Tranquility on the Moon, where \( g = 1.62 \, \text{m/s}^2 \). *Express your answer in meters.* **Part D:** Find the distance from its firing point to its landing point if it is fired over the flat Sea of Tranquility on the Moon, where \( g = 1.62 \, \text{m/s}^2 \). *Express your answer in meters.*