What is the wavelength of a 50 kg cheetah that can travel 1500 m in a...

The cheetah is one of the fastest accelerating animals, for it can go from rest to...

The cheetah is one of the fastest accelerating animals, for it can go from rest to 33.0 m/s in 5.54 s. If its mass is 116 kg, determine the average power developed by the cheetah during the acceleration phase of its motion. Express your answer in (a) watts and (b) horsepower.

The cheetah is one of the fastest accelerating animals, for it can go from rest to...

The cheetah is one of the fastest accelerating animals, for it can go from rest to 31.9 m/s in 4.16 s. If its mass is 113 kg, determine the average power developed by the cheetah during the acceleration phase of its motion. Express your answer in (a) watts and (b) horsepower.

An 8500 kg truck moving at 11 m/s collides with a 1500 kg car at rest....

An 8500 kg truck moving at 11 m/s collides with a 1500 kg car at rest. The coefficient of friction is .53. a) How fast is the truck going after the collision? b) How long until the truck comes to a stop? c) How far does it travel before coming to a stop?

015 (part 1 of 2) A cheetah can run at a maximum speed 103 km/h and...

015 (part 1 of 2) A cheetah can run at a maximum speed 103 km/h and a gazelle can run at a maximum speed of 76.5 km/h. If both animals are running at full speed, with the gazelle 99.3 m ahead, how long before the cheetah catches its prey? Answer in units of s. 016 (part 2 of 2) The cheetah can maintain its maximum speed for only 7.5 s. What is the minimum distance the gazelle must be ahead...

A 8500 kg truck moving at 11 m/s collides with a 1500 kg car at rest....

A 8500 kg truck moving at 11 m/s collides with a 1500 kg car at rest. The coefficient of friction is .53. a) How fast is the truck going immediatley after hitting the car b) How far do the truck and car travel before they stop. (Use Kinematics) c) Using the conservation of energy equation, find for the same distance.

Two-car, 2-D collision. Two cars with masses m1 = 1200 kg and m2 = 1500 kg...

Two-car, 2-D collision. Two cars with masses m1 = 1200 kg and m2 = 1500 kg are approaching an intersection. Car 1 has a velocity v1 = 15.0 m/s towards the east and car 2 has a velocity v2 = 20.0 m/s towards the north. The two cars reach the intersection at the same time and collide and lock bumpers and after the collision travel as a single wreckage. (a) What is the magnitude and direction of their velocity after...

#1: A mass of 6 kg is attached to a spring with k = 1500 N/m....

#1: A mass of 6 kg is attached to a spring with k = 1500 N/m. It is stretched a distance of 0.5 m and is released so that it oscillates in simple harmonic motion. A) What is the frequency? B) What is the energy of the oscillator? C) What is the maximum velocity for the oscillator? #2:  When at x = 0.3 m a simple harmonic oscillator (k = 2000 N/m and m = 2 kg) has a velocity of...

A). The breaks of a car of mass m = 2 103 Kg can provide a...

A). The breaks of a car of mass m = 2 103 Kg can provide a deaccelerating force of 104 N. How far will the car travel before coming to a complete stop if it moves initially at 10 m/s^-1? B). A pendulum of mass 0.1 Kg hangs from the ceiling of car at rest. What would be its maximum angle with respect to the vertical axis if the car accelerates from rest to 5 ms-2. Take g=10 m/s^-2. C)....

A 900 kg car moving East with speed of 20 m/s collides with a 1500 kg...

A 900 kg car moving East with speed of 20 m/s collides with a 1500 kg car moving North with speed of 15 m/s at an intersection. Both cars stick together after collision. What is the speed and direction of these two stuck cars immediately after this collision?

A 1500 kg aircraft going 30 m/s collides with a 3000 kg aircraft that is parked...

A 1500 kg aircraft going 30 m/s collides with a 3000 kg aircraft that is parked and they stick together after the collision and are going 10 m/s after the collision. They skid 123.9 m how long did they skid?