The engine of a 2000 kg Mercedes going up
Pike’s Peak delivers energy to its drive wheel
at the rate 100 kW .
Neglecting air resistance, what is the largest
speed the car can sustain on the steep Pike’s
Peak mountain highway, where the road is 30◦
to the horizontal? The acceleration due to
gravity is 10 m/s
2
.
1. 40 m/s
2. 10 m/s
3. 20 m/s
4. 0 m/s
5. 100 m/s

Question

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eurydike eurydike · Answer 1 · 2018-11-18T05:18:08+01:00

Option (2) is correct.

Speed of car in upward direction = v x sin(theta)

Power of the wheel = m x g x v x sin (theta)

m= mass of the car

g = acceleration due to gravity

v = velocity of the car

v = Power/( m x g x sin(30))

= 100 x 1000 W / ( 2000 Kg x 10 m/s^2 x 0.5)

= 10m/s

= 36km/h

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skyluke89 skyluke89 · Answer 2 · 2018-11-21T15:16:45+01:00

Answer:

2. 10 m/s

Explanation:

There are two forces acting on the car along the inclined plane:

- The driving force of the car, F, pulling upward along the ramp

- The component of the weight of the car, [tex]mg sin \theta[/tex], pulling downward along the ramp

In order to go at constant speed, the acceleration must be zero, so the net force must be zero. Therefore we can write:

[tex]F-mgsin \theta =0[/tex]

From which we can find the driving force of the car:

[tex]F=mgsin \theta=(2000 kg)(10 m/s^2)(sin 30^{\circ})=10,000 N[/tex]

The power of the engine is the product between force and speed of the car:

[tex]P=Fv[/tex]

since we know the power, [tex]P=100 kW=100,000 W[/tex], we can find the speed:

[tex]v=\frac{P}{F}=\frac{100,000 W}{10,000 N}=10 m/s[/tex]