A relief airplane is delivering a food package to a group of people stranded on a very small island. The island is too small for the plane to land on, and the only way to deliver the package is by dropping it. The airplane flies horizontally with a constant speed of 483 km/hour at an altitude of 975 m. The positive x and y directions are defined in the figure. For all parts, assume that the "island" refers to the point at a distance D from the point at which the package is released, as shown in the figure. Ignore the height of this point above sea level. Assume that the acceleration due to gravity is g = 9.80 m/s².

 

(a) After a package is dropped from the plane, how long will it take for it to reach sea level from the time it is dropped? Assume that the package, like the plane, has an initial velocity of 483 km/h in the horizontal direction. 

(b) If the package is to land right on the island, at what horizontal distance DD from the plane to the island should the package be released?

(c) What is the speed v_f of the package when it hits the ground? 

A relief airplane is delivering a food package to a group of people stranded on a very small island. The island is too small for the plane to land on, and the only way to deliver the package is by dropping it. The airplane flies horizontally with constant speed of 260 at an altitude of 1000 . The positive x and y directions are defined in the figure. For all parts, assume that the "island" refers to the point at a distance from the point at which the package is released, as shown in the figure. Ignore the height of this point above sea level. Assume that the acceleration due to gravity is = 9.80 . After a package is ejected from the plane, how long will it take for it to reach sea level from the time it is ejected? Assume that the package, like the plane, has an initial velocity of 260 in the horizontal direction. If the package is to land right on the island, at what horizontal distance from the plane to the island should the package be released? What is the speed of the package when it hits the ground?

A relief airplane is delivering a food package to a group of peoplestranded on a very small island. The island is too small for theplane to land on, and the only way to deliver the package is bydropping it. The airplane flies horizontally with constant speed of300 mph at an altitude of 650 m. The positive x and y directionsare defined in the figure. For all parts, assume that the "island"refers to the point at a distance D from the point at which thepackage is released, as shown in the figure. Ignore the height ofthis point above sea level. Assume that the acceleration due togravity is g = 9.80 m/s^2

After a package is ejected from the plane, how long will it takefor it to reach sea level from the time it is ejected? Assume thatthe package, like the plane, has an initial velocity of 300 mph inthe horizontal direction.

A relief airplane is delivering a food package to a group of peoplestranded on a very small island. The island is too small for theplane to land on, and the only way to deliver the package is bydropping it. The airplane flies horizontally with constant speed of230 at an altitude of 900 . The positive x and y directions aredefined in the figure. For all parts, assume that the "island"refers to the point at a distance from the point at which thepackage is released, as shown in the figure. Ignore the height ofthis point above sea level. Assume that the acceleration due togravity is = 9.80

A)After a package is ejected from the plane, how long will it takefor it to reach sea level from the time it is ejected? Assume thatthe package, like the plane, has an initial velocity of 230 in thehorizontal direction.
Express your answer numerically in seconds. Neglect airresistance
B)If the package is to land right on the island, at what horizontaldistance from the plane to the island should the package bereleased?
Express the distance numerically in meters
C)What is the speed of the package when it hits the ground?
Express your answer numerically in miles per hour.