Procopio is driving a car (m = 1000 kg) at v1 = 11.11 m/s when he stepped on the brakes. The car traveled a distance of s = 15 m before stopping completely. How much force F was needed to stop the car? The formula for the work done by the force F as the car traveled a distance s before stopping is: W = By the work-energy theorem: W = - K1 = -% 2 Combining these two equations for work and isolating F, we obtain an expression for F: F = 2/ Plugging in values, we know that 4.4 newtons of force is needed to stop the car.

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Chapter1: Units, Trigonometry. And Vectors
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please answer this question with solution without rounding it off:

Procopio is driving a car (m = 1000 kg) at v1 = 11.11 m/s when he stepped on the brakes. The car traveled a distance of s = 15 m before stopping completely. How much force F was needed to stop the car?

The formula for the work done by the force F as the car traveled a distance s before stopping is:

W = Blank1

By the work-energy theorem:

W = Blank 2 - K1 = -½Blank 3Blank 42

Combining these two equations for work and isolating F, we obtain an expression for F:

F = Blank 5Blank 62/(Blank 7)

Plugging in values, we know that Blank 84.4 newtons of force is needed to stop the car.

Procopio is driving a car (m = 1000 kg) at v7 = 11.11 m/s when he stepped on the brakes. The car traveled a distance of s = 15 m before stopping
completely. How much force F was needed to stop the car?
The formula for the work done by the force F as the car traveled a distance s before stopping is:
W =
By the work-energy theorem:
2
W =
- K1 = -%
Combining these two equations for work and isolating F, we obtain an expression for F:
F =
2
Plugging in values, we know that
4.4 newtons of force is needed to stop the car.
Transcribed Image Text:Procopio is driving a car (m = 1000 kg) at v7 = 11.11 m/s when he stepped on the brakes. The car traveled a distance of s = 15 m before stopping completely. How much force F was needed to stop the car? The formula for the work done by the force F as the car traveled a distance s before stopping is: W = By the work-energy theorem: 2 W = - K1 = -% Combining these two equations for work and isolating F, we obtain an expression for F: F = 2 Plugging in values, we know that 4.4 newtons of force is needed to stop the car.
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