At the bottom of a loop in the vertical plane, an airplane has a horizontal velocity...
At the bottom of a loop in the vertical plane, an airplane has a horizontal velocity of 345 mi/h and is speeding up at a rate of 10 ft/s The radius of curvature of the loop is 1 mi. The plane is being tracked by radar at O What are the recorded values of r, r, θ, and θ for this instant? l mi 1800 ft 2400 ft The recorded value of isft/s The recorded value of ř isft/ s2...
Chapter 2, Problem 2/125 At the bottom of a loop in the vertical (r, θ) plane at an altitude of 495 m, the airplane P has a horizontal velocity of 625 km/h and no horizontal acceleration. The radius of curvature of the loop is 1045 m. For the radar tracking at O, determine the recorded values of r and θ for this instant. 625 km/h 495 m 1040 m Answers: m/s2 rad/s2
Help please? Given: (BJC 10th 11.169) At the bottom of the loop in the vertical plane, a jet has a horizontal veloce shown. In addition is it speeding up at a rate of 104 The radius of curvature at this instant is show. 5280 ft VA= 462 ft/s 1800 ft 2400 ft- Find: Determine the variables that the radar station would be measuring to determine the speed and acceleration of the jet- 1. r, . & 2. 0, 0, 0....
Chapter 2, Problem 2/153 (video solution to similar problem attached) At the bottom of a loop in the vertical (r, θ) plane at an altitude of 390 m, the airplane P has a horizontal velocity of 700 km/h and no horizontal acceleration. The radius of curvature of the loop is 1255 m. For the radar tracking at o, determine the recorded values of r and θ for this instant. 700 km/h 390 m 1095 m Answers: m/s2 rad/s2
The racing airplane is beginning an inside loop in the vertical plane. The tracking station at O records the folowing data for a particula instant: r84 m, 18.0 m/s, 75.7 m/s, 6 -31°, 0.55 rads, and -0.33 rad/s2. Determine the values of v, v, p, and β at this instant. v, U Answers: m/s m/s2
A plane is at the bottom of a circular loop when the following values are recorded: dr/dt = 374.4 ft/s, dtheta/dt = -.0924 rad/s, d^2r/dt^2 = 57.868 ft/s^2 and d^2theta/dt^2 = .0318 rad/s^2. Determine the plane's normal and tangential acceleration and the radius of the loop.
An airplane moves 100 m/s as it travels around a vertical circular loop which has a 1.0-km radius. What is the magnitude of the resultant force on the 50-kg pilot of this plane at the bottom of this loop? A 4.0-kg block sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (k = 200 N/m) which has its other end fixed. If the block has a speed of 4.0 m/s as it passes through...
The pilot of an airplane executes a constant-speed loop-the-loop maneuver. His path is a vertical circle. The speed of the airplane is 250 mi/h, and the radius of the circle is 1350 ft. (a) What is the pilot's apparent weight at the lowest point if his true weight is 160 lb? (b) What is his apparent weight at the highest point? (c) What If? Describe how the pilot could experience weightlessness if both the radius and the speed can be...
The pilot of an airplane executes a constant-speed loop-the-loop maneuver. His path is a vertical circle. The speed of the airplane is 350 mi/h, and the radius of the circle is 1000 ft. (a) What is the pilot's apparent weight at the lowest point if his true weight is 160 lb? lb (b) What is his apparent weight at the highest point? lb (c) What If? Describe how the pilot could experience weightlessness if both the radius and the speed...
Initials 6. An airplane moves 140 m/s as it travels around a vertical circular loop which has a radius of I km. What is the magnitude of the force on the 70 kg pilot of this plane at the bottom of the loop?