A Boeing 747 has a mass of 200,000 kg and four engines each producing a constant...

A Boeing 747-8I aircraft has a mass of 447,700 kg. This includes loading. The combined area...

A Boeing 747-8I aircraft has a mass of 447,700 kg. This includes loading. The combined area of ​​both wings is 554 m2. The cruising speed is M0.855 (917 km / h). Determine the speed of the wind above the wing to maintain the aircraft's lift. The air density is 1.29 kg / m3

A Boeing 747-8I aircraft has a mass of 447,700 kg. This includes loading. The combined area...

A Boeing 747-8I aircraft has a mass of 447,700 kg. This includes loading. The combined area of both wings is 554 m2. The cruise speed is M0.855 (917km/h). Determine the speed of the wind above the wing to maintain the aircraft's lift. The air density is 1.29 kg/m3.

Boeing 767-400ER model airplane has two engines. Each engine can have a maximum thrust (mechanical force)...

Boeing 767-400ER model airplane has two engines. Each engine can have a maximum thrust (mechanical force) output of 270 kN. When the plane is cruising at 717.25 km/h, the pilot decides to increase the speed to the typical 850.0 km/h. If drag on the plane is on average 26188 N, and the engines are engaged at 55.42 % of their maximum thrust output, and the plane weighs 149375 kg, how long does it take to reach the new cruising speed?...

An airplane has a mass of 48,000 kg, a wing area of 300 m2, a maximum...

An airplane has a mass of 48,000 kg, a wing area of 300 m2, a maximum lift coefficient of 3.2, and a cruising drag coefficient of 0.03 at an altitude of 12,000 m. Determine(a) the takeoff speed at sea level, assuming it is 20 percent over the stall speed, and (b) the thrust that the engines must deliver for a cruising speed of 900 km/h.

Early test flights for the space shuttle used a "glider" (mass of 980 kg including pilot)....

Early test flights for the space shuttle used a "glider" (mass of 980 kg including pilot). After a horizontal launch at 440 km/h from a height of 4000 m, the glider eventually landed at a speed of 210 km/h Part A What would its landing speed have been in the absence of air resistance? Part B What was the average force of air resistance exerted on it if it came in at a constant glide of 12∘∘ to the Earth?

Consider a 1,233 kg car cruising at constant speed of 71 km/h. Now the car starts...

Consider a 1,233 kg car cruising at constant speed of 71 km/h. Now the car starts to pass another car, by accelerating to 119 km/h in 7 s. Neglect air drag and friction and assume the road is level. By taking the entire car as the system and appying an energy balance, determine the additional power (kW) needed to achieve this acceleration to 1 decimal place. (note: 1 m/s = 3.6 km/h)

A 5 kg mass is attached to a spring. The mass is compressed fully to the...

A 5 kg mass is attached to a spring. The mass is compressed fully to the left and released from rest. The mass displays simple harmonic motion with a period of 3 s and a maximum speed of 0.4 m/s. Assume the spring is massless and neglect friction and air resistance. a. Determine ω b. What is the amplitude of the oscillations? c. What is the initial phase (in radians) of the oscillator? d. What is the spring constant?

Four people, each has a mass of 65kg, get in a car with a mass of...

Four people, each has a mass of 65kg, get in a car with a mass of 1700kg. 1) What impulse is required to accelerate the car from rest to a steady speed of 75 km/h on a flat road? Drag and friction can be ignored. 2) Assume the car hits a stationary 600kg moose. The car was still traveling at 75 km/h before the collision, and the collision is perfectly inelastic, what is the speed of the car+moose (in km/h)...

A mass and spring system has mass m = 1.2 kg. The spring constant is unknown....

A mass and spring system has mass m = 1.2 kg. The spring constant is unknown. Also, neglect friction for this system. A) When the system is compressed by 1.00 cm and let go the frequency of the periodic motion is 0.75 Hz. What is the value of the spring constant k? B) What is the maximum speed vmax of the motion? C) What is the total energy TE = PE + KE in the system?

An aircraft of mass M =1.20×104 kg is practicing a bombing run on a tunnel on...

An aircraft of mass M =1.20×104 kg is practicing a bombing run on a tunnel on Earth that slants forward and down into the ground at an angle of θ =55.0° from the horizontal as shown in the figure. The aircraft is constrained to fly at a constant height of h above the ground at a constant speed of v0 = 750 km/h. Upon release, the bomb (mass m =150kg) executes free fall with constant downward acceleration of g=9.8m/s2. Air...