Consider someone driving down the highway at 70 miles per hour (31.3 m/s). The total mass...
Consider someone driving down the highway at 70 miles per hour (31.3 m/s). The total mass of the driver and their car (as well as everything else in the car) is 1600kg. How much work must friction do to make the car stop?
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Consider someone driving down the highway at 70 miles per hour
(31.3 m/s). The total mass...
Consider someone driving down the highway at 70 miles per hour (31.3 m/s). The total mass...
Consider someone driving down the highway at 70 miles per hour (31.3 m/s). The total mass of the driver and their car (as well as everything else in the car) is 1300kg. A) How much work must friction do to make the car stop? I got −6.37×10^5 J B) A tree suddenly falls on the highway 60m in front of the car, and the driver just barely manages to stop before hitting the tree. What is the magnitude of the...
Under Galilean relativity, if a police officer is driving at 50 miles per hour on a...
Under Galilean relativity, if a police officer is driving at 50 miles per hour on a highway with a speed limit of 70 miles per hour, what speed must she observe from a driver going in the opposite direction in order to know the person must be speeding?
9. A car driving on the highway has a mass M and a velocity v. A...
9. A car driving on the highway has a mass M and a velocity v. A truck on the highway has a mass 2M. If the truck has the same velocity v as the car, how does the momentum of the truck compare to the momentum of the car? a. b. If the truck as the same momentum as the car, how does the velocity of the truck compare to the velocity of the car *Now, assume the truck is...
You're driving down the highway late one night at 20 m/s when a deer steps onto...
You're driving down the highway late one night at 20 m/s when a deer steps onto the road 36 m in front of you. Your reaction time before stepping on the brakes is 0.50 s , and the maximum deceleration of your car is 10 m/s2 . How much distance is between you and the deer when you come to a stop?
The speed limit on a particular city street is 45 miles per hour (which is 20...
The speed limit on a particular city street is 45 miles per hour (which is 20 m/s). A driver approaching a stop light slams on their brakes, locking the wheels of their car in place so that they no longer rotate. If the coefficient of friction between the car's tires and the street is 0.9, what is the minimum distance the driver would need to start braking in order to stop before the intersection?
1. You’re driving down the highway late one night at 20 m/s when a deer steps...
1. You’re driving down the highway late one night at 20 m/s when a deer steps out onto the road 35 m in front on you. Your reaction time before stepping on the brakes is 0.50 seconds and the maximum deceleration of your car is 10 m/s2. a) How much distance is between you and the deer when you come to a stop? b) What is the maximum speed you could have and still not hit the deer? 2. Consider...
While driving down a flat highway at a speed of 29.0 m/s the wheel of a...
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...
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...
Please show how to work this problem Consider two cars traveling on the highway, one behind...
Please show how to work this problem
Consider two cars traveling on the highway, one behind the other. They are both moving at the same initial velocity, vi-29.1 m/s, with the first car a distance d in front of the second car. ("d" is the distance from the front bumper of the second car to the back bumper of the first car.) At some time the driver of the first car hits the brakes and comes to a stop with...
Review PartA You're driving down the highway late one night at 20 m/s when a deer...
Review PartA You're driving down the highway late one night at 20 m/s when a deer steps onto the road 41 m in front of you Your reaction time before stepping on the brakes is 0.50 s, and the maximum deceleration of your car is 10 m/s? How much distance is between you and the deer when you come to a stop? Express your answer to two significant figures and include the appropriate un Value You have already submitted this...
9. A car driving on the highway has a mass M and a velocity v. A truck on the highway has a mass 2M. If the truck has the same velocity v as the car, how does the momentum of the truck compare to the momentum of the car? a. b. If the truck as the same momentum as the car, how does the velocity of the truck compare to the velocity of the car *Now, assume the truck is...
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...
Please show how to work this problem
Consider two cars traveling on the highway, one behind the other. They are both moving at the same initial velocity, vi-29.1 m/s, with the first car a distance d in front of the second car. ("d" is the distance from the front bumper of the second car to the back bumper of the first car.) At some time the driver of the first car hits the brakes and comes to a stop with...
Review PartA You're driving down the highway late one night at 20 m/s when a deer steps onto the road 41 m in front of you Your reaction time before stepping on the brakes is 0.50 s, and the maximum deceleration of your car is 10 m/s? How much distance is between you and the deer when you come to a stop? Express your answer to two significant figures and include the appropriate un Value You have already submitted this...
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