A car and its passengers have a total mass of 1,800 kg. The car is supported...

Two people with a combined mass of 134 kg hop into an old car with worn-out...

Two people with a combined mass of 134 kg hop into an old car with worn-out shock absorbers. This causes the springs to compress by 8.50 cm . When the car hits a bump in the road, it oscillates up and down with a period of 1.62 s . Find the total load supported by the springs in kg. Find the mass of the car in kg.

Six passengers with combined mass 375 kg compress the springs of a truck with worn-out shock...

Six passengers with combined mass 375 kg compress the springs of a truck with worn-out shock absorbers by 6.00 cm when they get in. Model the truck and passengers as a single body on a single ideal spring. The loaded truck has a frequency of vibration of 0.3 Hz. 1. Find the ideal spring constant ?. 2. Find the mass of the truck. 3. What is the period of vibration of the empty car?

An elevator car has a mass of 1600 kg and is carrying passengers having a combined...

An elevator car has a mass of 1600 kg and is carrying passengers having a combined mass of 300 kg. A constant friction force of 4000 N retards its motion. How much power must a motor deliver to lift the elevator car and its passengers at a constant speed of 3.00 m/s _____. a. 4.39e4 W b. 6.79 e4 W c. 5.02e4 W d. 2.62e4 W

A car with bad shock absorbers bounces up and down with a period of 2.02 s...

A car with bad shock absorbers bounces up and down with a period of 2.02 s after hitting a bump. The car has a mass of 1200 kg and is supported by four springs of equal force constant k. Determine a value for k. Answer in units of N/m.

An elevator car has a mass of 1500 kg carry 3 passengers with a total mass...

An elevator car has a mass of 1500 kg carry 3 passengers with a total mass of 330 kg. The lift operates with a constant frictional force of 2 700 N working against the motion of the elevator. How much power must the motor deliver to the elevator cart to keep it moving at a constant speed of 2.4 ms-1 ? How much power would need to be supplied by the motor if it was 70% efficient?

Four people with a combined mass of 300 kg are riding in a 1100 kg car....

Four people with a combined mass of 300 kg are riding in a 1100 kg car. When they drive down a washboard road with bumps spaced 6.9 mm apart, they notice that the car bounces up and down with a maximum amplitude when the car is traveling at 6.1 m/s . The driver stops the car and everyone exits the vehicle. Part A) How much does the car rise up on its springs?

An elevator has a mass of 2,000 kg and is carrying a load of passengers with...

An elevator has a mass of 2,000 kg and is carrying a load of passengers with a combined mass of 250 kg. A constant friction force of 3,000 N retards the motion of the elevator. recall; P = dW/dt a) How much power must the motor provide to lift the car at a constant speed of 4 m/s? b) How much power is required to provide the elevator car with 9.8 m/s^2 of acceleration at 1 m/s vs 4 m/s?

Four people who each have mass 80 kg ride in a 1000kg car. The car travels...

Four people who each have mass 80 kg ride in a 1000kg car. The car travels on a road that has large bumps, equally spaced 16m apart. The car bounces on its spring suspension with maximum amplitude when traveling at 36 km/h. If the car stops, and the people get out, by how much does the car body rise on its suspension?

An elevator car including the passengers has a mass of 1100 kg and travels downwards at...

An elevator car including the passengers has a mass of 1100 kg and travels downwards at constant speed of 4.000 m/s for 32.00 m. The force of friction averaging 80.00 N acts on the elevator. The work done by the force of gravity; the work done by the force of friction; and the work done by the cable supporting the elevator during the 32.00 m excursion were (in that order, in kJ): Answer: 345.0; -2.560; -342.4

A bicycle and its rider have a total mass of 83.0 kg. Each of its wheels...

A bicycle and its rider have a total mass of 83.0 kg. Each of its wheels can be modeled as a thin hoop with mass 1.32 kg and diameter of 70.0 cm. When the brakes are applied, two brake pads squeeze the rims of each wheel. Assume that the four brake pads exert normal forces on the wheels that are equal and constant in magnitude. The coefficient of kinetic friction between a brake pad and a wheel is 0.900. The...