A 1 530-kg automobile has a wheel base (the distance between the axles) of 3.10 m....

A 1 530-kg automobile has a wheel base (the distance between the axles) of 2.90 m....

A 1 530-kg automobile has a wheel base (the distance between the axles) of 2.90 m. The automobile's center of mass is on the centerline at a point 1.25 m behind the front axle. Find the force exerted by the ground on each wheel. each front wheel 4.265 kN (This is the correct answer for this part) each rear wheel ____kN

A jet transport has a weight of 2.49 x 106 N and is at rest on...

A jet transport has a weight of 2.49 x 106 N and is at rest on the runway. The two rear wheels are 17.0 m behind the front wheel, and the plane's center of gravity is 12.5 m behind the front wheel. Determine the normal force exerted by the ground on (a) the front wheel and on (b) each of the two rear wheels.

A jet transport has a weight of 2.85 x 106 N and is at rest on...

A jet transport has a weight of 2.85 x 106 N and is at rest on the runway. The two rear wheels are 15.0 m behind the front wheel, and the plane's center of gravity is 11.8 m behind the front wheel. Determine the normal force exerted by the ground on (a) the front wheel and on (b) each of the two rear wheels.

A child weighing 0.80 kg sits on a wheel at a distance of r = 0.625...

A child weighing 0.80 kg sits on a wheel at a distance of r = 0.625 m from the center. The coefficient of static friction between the child and the wheel is 0.725. 1. What force provides the needed centripetal force to keep the child on the wheel as it spins? 2. What is the maximum frequency of the wheel without the child? 3. If the wheel rotates with a period of 4.25 seconds, find the child's centripetal acceleration. What...

Review Concept Simulation 9.2 and Conceptual Example 7 as background material for this problem. A jet...

Review Concept Simulation 9.2 and Conceptual Example 7 as background material for this problem. A jet transport has a weight of 2.79 x 106 N and is at rest on the runway. The two rear wheels are 15.0 m behind the front wheel, and the plane's center of gravity is 12.5 m behind the front wheel. Determine the normal force exerted by the ground on (a) the front wheel and on (b) each of the two rear wheels. (a) Number...

The seperation distance between two masses is 0.400 m The objects have masses of 270 kg...

The seperation distance between two masses is 0.400 m The objects have masses of 270 kg and a 570 kg. (a) Find the net gravitational force exerted by these objects on a 52.0 kg object placed midway between them.

The center of mass of a car of mass M is located midway between the front-...

The center of mass of a car of mass M is located midway between the front- and rear wheels, at a distance h from the ground. The distance between the front and the rear wheels is d. a) The car is moving forward on a horizontal surface with a constant acceleration A. In a system that is accelerating with the car, what can be said about the horizontal forces that is acting on the car? b) What is the ratio...

MY NOTES ASK YOUR TEACHER A bicycle wheel in the shape of a hoop has a...

MY NOTES ASK YOUR TEACHER A bicycle wheel in the shape of a hoop has a diameter of 1.60 m and a mass of 1.60 kg. The bicycle is placed on a stationary stand. The wheel is initially at rest. You may ignore any effects due to the spokes on the wheel. A constant force of 55.0 N is applied tangentially to the rim for 1.60 s. There is a friction torque of 11.0 N.m at the axle. (a) Find...

A potters wheel-a thick stone disk radius 0.500 m and mass 125 kg-is freely rotating at...

A potters wheel-a thick stone disk radius 0.500 m and mass 125 kg-is freely rotating at 50.0 rev/min. The potter can stop the wheel in 6.00 s by pressing a wet rag against the rim and exerting a radially inward force of 68.0 N. Find the effective coefficient of kinetic friction between the wheel and rag.

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...