An airliner lands with a speed of 52.0 m/s. Each wheel of the plane has a...
A jet plane lands with a speed of 112 m/s and can accelerate at a maximum rate of −5.50 m/s2 as it comes to rest. (a) From the instant the plane touches the runway, what is the minimum time needed before it can come to rest? s (b) Can this plane land on a small tropical island airport where the runway is 0.800 km long? Yes No
A jet plane lands with a speed of 116 m/s and can accelerate at a maximum rate of −4.20 m/s2 as it comes to rest. (a) From the instant, the plane touches the runway, what is the minimum time needed before it can come to rest? (b) Can this plane land on a small tropical island airport where the runway is 0.800 km long? Yes No
2. A typical jetliner lands at a speed of 1.60x10² mi/h and decelerates at the rate of (10.0 mi/h)/s. If the plane travels at a constant speed of 1.60x102 mi/h for 1.00 s after landing before applying the brakes, what is the total displacement of the aircraft between touchdown on the runway and coming to rest? PROBLEM SOLVING: Show free-body diagram, complete solution, unit analysis and box your final answer. Use all the decimal in solutions and final answer.
A Boeing 747 "Jumbo Jet" has a length of 59.7 m. The runway on which the plane lands intersects another runway. The width of the intersection is 25.3 m. The plane decelerates through the intersection at a rate of 6.51 m/s2 and clears it with a final speed of 43.3 m/s. How much time is needed for the plane to clear the intersection?
A small plane is taxiing on the runway at a speed of 4.0 m/s. It then begins accelerating for take-off at a uniform rate of 12 m/s2 and it's wheels leave the ground after 9.0s. How far did it travel from the point at which it started accelerating until it becomes airbone?
0 Question 11 While driving down a flat highway at a speed of 220m/s the wheel of a truck detach from its ade and rolls towards a hill The 45.0 kg wheelrolls without slipping up a hill where it stops at a location 80.0 m higher than the bottom of the hill. What is the wheels moment of inertia in kom if its radius is 0.45m. (Do not assume the wheel has amaos distribution that is on the formula sheet)....
1) You are riding a bike at a speed of 4.3 m/s. You apply the rear brakes and come to a stop in 4 seconds. The moment of inertia of the rear bike wheel is 0.15 kg.m', and its radius is 0.33 m. If the rear wheel is rolling without slipping, what was the average torque exerted on it during the 4 seconds that you applied the brakes? (7 points)
While driving down a flat highway at a speed of 29.0 m/s the wheel of a truck detaches from its axle and rolls towards a hill. The 45.0 kg wheel rolls without slipping up a hill where it stops at a location 80.0 m higher than the bottom of the hill. What is the wheel's moment of inertia in kgm I if its radius is 0.45 m? (Do not assume the wheel has a mass distribution that is on the...
While driving down a flat highway at a speed of 29.0 m/s the wheel of a truck detaches from its axle and rolls towards a hill. The 45.0 kg wheel rolls without slipping up a hill where it stops at a location 80.0 m higher than the bottom of the hill. What is the wheel's moment of inertia in kgm I if its radius is 0.45 m? (Do not assume the wheel has a mass distribution that is on the...