Question 5 a. And b. 250 Chapter 4C.1021Problem Solving with Fractions424d. -3 = 355. Due to the curvature of Earth's surface, the maximum distance, d, in kilometers that a personcan see from a height h meters above the ground is given by the formulad = Vh.a. Use the formula to determine the maximum distance a person can see from a height of64 meters.b. Use the formula to determine the maximum distance a person can see from a height of100 meters.An object dropped from a height falls a distance of d feet in t seconds. The formula thatdescribes this relationship is d = 161². A math book is dropped from the top of a building thatis 400 feet high.a. How far has the book fallen in second?b. After seconds, how far above the ground is the book?b. s 3 inches7. Recall from the activity that hang timer for a jump is given by t =Vs, where s is the heightof the jump in feet, and r is measured in seconds. Determine the hang time for the followingheights.a. s= 1 foot

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(5. Due to the curvature of Earth's surface, the maximum distance, d, in kilometers that a person can see from a height h meters above the ground is given by the formula d = V. a. Use the formula to determine the maximum distance a person can see from a height of 64 meters. b. Use the formula to determine the maximum distance a person can see from a height of 100 meters.