2) The acceleration for a car is 3.6 m/sec2. It starts from rest. 2- The velocity...
Car A and B start a race from rest. Car A starts with an acceleration of 100 m/s^2 and after 10s increases with acceleration to 200 m/s^2. Car B starts with an acceleration of 50 m/s^2 and after 5s increases the acceleration to 300 m/s^2. 1) What is the distance between cars after 1s 2) What is the velocity of each car after 1s 3) After 30 seconds which car is ahead?
A train starts from rest and starts with constant acceleration a = 3.6 m/s2 for 28 s. The train then coasts at constant velocity for 118 s. The train then comes to rest in 14 s. Please find the total distance covered by the train during the 160 s described. Kinematic equations: V = vo + at, x = x + vot + at", v = vi + 2aAx, x = x, + (v + v.)t.
1.) A car starting from rest is travelling with a constant acceleration of 30 m/s2. Find its velocity after 5 seconds. Find its position after 5 seconds. Find the time it would reach 600 m/s Find the distance it has traveled upon reaching a speed of 600 m/s 2.) A particle travels from 100 m/s to 1000 m/s. Find its constant acceleration if this was done in 5 seconds. What is the distance traveled during the 5 seconds interval? Find...
The tangential acceleration of a car that starts from rest at A is (90 + s)/ 450 m/s^2, where s is the distance in meters measured along the curse from A. Compute the acceleration vector of the car when it is at B.
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.
A wheel starts from rest and has an angular acceleration of 3.6 rad/s 2. When it has made 24 rev, what is its angular velocity?
A train starts from rest at a station and accelerates at a rate of 1.5 m/sec2 for 16 seconds. It runs at a constant speed for 80 seconds and slow down at a rate of 2.5 m/sec2 until it stops at next station. Find the total distance covered by train.
A car starts to move from rest with an accession of 0.40 m / s ^ 2. A minute later the accession stops and the car moves with constant speed for 5.0 minutes. The car's brakes are finally applied and stops in 2.0 minutes slowing evenly. The total distance traveled is:
A car starts from rest and moves along a straight line with an acceleration of a =10x(-1/5) m/s where x is in meters. Determine the cars position and velocity when = 4.481 s. X(4.481) V(4.481) =
Starting from rest, a car accelerates at a constant rate of 2.6 m/s2 for a time of 5 seconds. (a) Compute the velocity at 1 second? (b) Compute the velocity at 2 seconds? (c) Compute the velocity at 3 seconds? (d) Compute the velocity at 4 seconds? (e) Compute the velocity at 5 seconds? (f) Compute the distance traveled at 1 second? (g) Compute the distance traveled at 2 seconds? (h) Compute the distance traveled at 3 seconds? (i) Compute...