A bomber is flying horizontally over level tain, with a speed of 295 m/s relative to...
A bomber is flying horizontally over level terrain, with a speed of 300 m/s relative to the ground, at an altitude of 3100 m. Neglect the effects of air resistance. (a) How far will a bomb travel horizontally between its release from the plane and its impact on the ground? (b) If the plane maintains its original course and speed, where will it be when the bomb hits the ground? directly above the bomb behind the bomb ahead of the bomb (c) At what angle from...
A bomber flies horizontally with a speed of 347 m/s relative to the ground. The altitude of the bomber is 2900 m and the terrain is level. Neglect the effects of air resistance. The acceleration of gravity is 9.8 m/s2 . a) How far from the point vertically un- der the point of release does a bomb hit the ground? Answer in units of m. b) At what angle from the vertical at the point of release must the telescopic...
The B-29 Superfortress Bockscar bomber dropped the Fatman atomic bomb over Nagasaki on 9 August 1945. The bombing altitude was 3.00 x 104 ft and the speed of the aircraft was 370 km/h. (a) How far does the bomb travel horizontally between its release and its impact on the ground? Ignore the effects of air resistance. (b) If the bomber maintains the plane's original course, altitude, and speed, where is the plane relative to the bomb's point of impact when...
QUESTION 11 A World War Il bomber flies horizontally over level terrain, with a speed of 255 m/s relative to the ground and at an altitude of 2.94 km. The bombardier releases one bomb. How far does the bomb travel horizontally between its release and its impact on the ground? Ignore the effects of air resistance, 857 m 6250 m 2678 m 10,000 m
A bomber plane is flying at a height “h” exactly level with the ground, and with a constant speed “v.” At time t = 0 the plane gently releases its payload (i.e. at the initial moment the payload is at rest with respect to the plane). Assume that after releasing the payload the plane continues to move with the same velocity as before. Answer the following questions based on this scenario. (You may use h = 490 meters and v...
Problem 30. problems-1/kinematics-pr-bombing-run-trajectory.tex R- A forest fire is burning. A forest service plane flying horizontally at a height H above the ground is about to release a water bomb with initial horizontal velocity voĉ at just the right instant so that it will freely fall with the right trajectory to hit the fire and put it out. Neglect drag forces and answer the following questions in terms of the givens H and vo and physical constants you know such as...
A plane flying horizontally at a speed of 50 m/s and at an elevation of 160 m drops a package, and 2.0 s later it drops a second package. A.) How far apart will the two packages land on the ground if air resistance is negligible? B.) How long after the first package hits the ground does the second package hit ?
A plane is flying horizontally with speed 184 m/s at a height 2260 m above the ground, when a package is dropped from the plane. The acceleration of gravity is 9.8 m/s2 . What is the horizontal distance from the release point to the impact point? Answer in units of m. A second package is thrown downward from the plane with a vertical speed v1 = 69 m/s. What is the magnitude of the total velocity of the package at...
An airplane is flying horizontally with a constant velocity of 200 m/s at an altitude of 5200 m when it drops a package. How long does it take for the package to reach the ground? ______s What is the distance between the airplane and the package when the package hits the ground? Ignore air resistance. ______m How far ahead of the target along the x direction should the plane be when it releases the package? _______m
A dive-bomber has a velocity of 265 m/s at an angle θ below the horizontal. When the altitude of the aircraft is 2.15 km, it releases a bomb, which subsequently hits a target on the ground. The magnitude of the displacement from the point of release of the bomb to the target is 3.35 km. Find the angle θ.