QUESTION 6 1.5 initial speed of vo 53 km/h, a car accelerates at 3,259 km/h along...
QUESTION6 Traveling with an initial speed of vo 53 km/h, a car accelerates at 3,259 km/h2 along a straight road. What would be the distance traveled (in meters) to reach a final speed for the car to reach a final speed v 106 km hr? QUESTION7 The velocity of a particle is v = 2.1/ + (3-20 j mis, where t is in seconds. Ifrs 0 when t = o, determine the displacement of the particle in the x direction...
QUESTION 5 58 km/h, a car accelerates at 3,901 km/h2 along a straight road How lon will i take (in seconds) of vo Traveling with an initial speed of vo 58 kmh, a car accelerates at 3,901 km/h2 along a straight road for the car to reach a final speed vf 101 km/hr?
2. A car accelerates along a straight road from rest to 90 km/h in 5.0s. What is the magnitude of average acceleration in meters per second squared. 3. If you are driving 110km/h along a straight road and look to the side for 2.0s, how far do you travel during this inattentive period? 4. At highway speeds, a particular car is capable of accelerating at about 1.8m/s?. At this rate, how long does it take to accelerate from 80km/h to...
a car is traveling at a constant speed of Vo on a straight, level road. After the brakes are applied at t=0 seconds, the motion can be approximated by: x=t^3/100-t^2 +17t where x is the distance traveled in meters and t is the time in seconds. Determine: A the initial velocity (Vo), B. the time required for the car to stop, C. The distance required for the car to stop, and D. The maximum deceleration during braking.
Two cars are traveling along a straight road. Car (A) maintains a constant speed of 70.0 km/h; car (B) maintains a constant speed of 106 km/h. At t = 0, car (B) is 36.0 km behind car A. How far will car (A) travel from t = 0 before it is overtaken by car (B)?
6. Two cars are traveling along a straight road. Car (A) maintains a constant speed of 780 km/h; car (B) maintains a constant speed of 104 km/h. Att o, car (B) is 430 km behind car A. How far will car (A) travel from t O before it is overtaken by car (B)? km
6. Two cars are traveling along a straight road. Car (A) maintains a constant speed of 74.0 km/h; car (B) maintains a constant speed of 111 km/h. Att-0 car (B) is 34.0 km behind car A. How far will car (A) travel from t -0 before it is overtaken by car (B)? km
6. Two cars are traveling along a straight road. Car (A) maintains a constant speed of 88.0 km/h; car (B) maintains a constant speed of 107 km/h. At t = 0, car (B) is 46.0 km behind car A. How far will car (A) travel from t = 0 before it is overtaken by car (B)?
6. Two cars are traveling along a straight road. Car (A) maintains a constant speed of 90.0 km/h; car (B) maintains a constant speed of 104 km/h. At t car (B) is 43.0 km bchind car A. How far will car (A) travel from t- 0 bcforc it is overtaken by car (B)? 0, x 289 km
Prob. 2 A car starts from rest, accelerates at 1.5 m/s, and reaches a maximum speed vi. After that it decelerates at 2 m/s until it stops. During the entire process the car has traveled a distance of I km. (a) Sketch the velocity diagram of the particle during the process. (Leave vI as an unknown on the diagram) (b) Determine the maximum speed vi. (e) Determine the total time required.