Register
A 750-kg automobile is moving at 16.8 m/s at a height of 5.00 m above the bottom of a hill when it runs out of gasoline. The car coasts down the hill and then continues coasting up the other side until
158k views
5 votes
A 750-kg automobile is moving at 16.8 m/s at a height of 5.00 m above the bottom of a hill when it runs out of gasoline. The car coasts down the hill and then continues coasting up the other side until it comes to rest. Ignoring frictional forces and air resistance, what is the value of h, the highest position the car reaches above the bottom of the hill? where X = 16.8.

User Naveen Rao
by
4.3k points

1 Answer

6 votes

Answer:h=19.4 m

Step-by-step explanation:

Given

mass of automobile
m=750\ kg

Initial height of automobile
h_o=5\ m

Velocity at this instant
v=16.8\ m/s

If the car stops somewhere at a height
h

Thus conserving total energy we get


K_i+U_i=K_f+U_f


(1)/(2)mv^2+mgh_o=(1)/(2)m(0)^2+mgh


(v^2)/(2g)+h_o=h


h=5+(16.8^)/(2* 9.8)


h=5+14.4


h=19.4\ m

User Tim Banks
by
3.7k points
Ask a Question
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.

4.3m questions

5.6m answers

Other Questions

How does the value of the electrostatic force vary with the value (how many) of the charges?
A car is moving 14.4 m/s when it hits the brakes. It slow from 78.8 m, which take 9.92s. It then accelerates at 1.83 m/s 2 for 4.50 s. What is the total displacement?
A 3.63.kgkg chihuahua charges at a speed of 3.3m/s3.3m/s. What is the magnitude of the average force needed to bring the chihuahua to a stop in 0.50s0.50s
A charge Q is uniformly spread over one surface of a very large nonconducting square elastic sheet having sides of length d. At a point P that is 1.25 cm outside the sheet, the magnitude of the electric
If you use 750 Newtons of force to accelerate an object to 3.1 m/s​ . What is the object’s mass?
Link Copied!