A car starts at a position of 15.0 meters at time t=1.0 seconds. Based on the...
A car starts moving and runs a distance of 129 meters in 14 seconds with a constant acceleration. Then it keeps moving with a constant velocity for 12 seconds. Finally, it stops by braking 16 seconds after. What's the total distance that the car made?
6. 125POINTSIThe position of a particle is s(t)/2t where s is in meters and t is in seconds. Your answers should include units a. Find the average velocity first between -0 and -5, then between 18 and t-23. What is happening to the velocity over time (Looking at the graph of s(t) will help you understand why this is happening)? 6. 125POINTSIThe position of a particle is s(t)/2t where s is in meters and t is in seconds. Your answers...
Q1 a) Use the following data to find the velocity and acceleration at t=10 seconds: Time, t, s 0 2 4 6 8 10 12 14 16 Position, x, m 0 1.7 2.8 4.3 5.5 6.4 7.5 8.1 8.4 Show proper working with each and every step b) The velocity “v” of a particle at distance “s” from a point on its linear path is given in the following data s(m) 0 2.5 5.0 7.5 10.0 12.5 15.0 17.5...
A race car moves such that its position fits the relationshipx=(0.5m/s)t+(0.75m/s2)t2 where:x in meters (m) and t in second (s)Plot a graph of position vs. timeDetermine the instantaneous velocity at 4 sec, using a time interval of 0.2 secCompare the average velocity during the first 4 sec with the results.Show graph and solution
2. A car moves on a straight road. The car's position at time t is given by s(t) = t+ sin t where s is in meters and t in seconds. Find the acceleration at t = Pi/4;s.
A car driving down the road has a position of 18.0 meters at 3.00 seconds and a position of 8.00 meters at 7.00s. What is the velocity of the car over this time in meters per second? Round your answer correctly to the first three places. No need to include units on this problem.
6. Two cars are moving in a flat parking lot. Car A is moving in a circle of radius 2 and it's position as a function of time,t, is FA(t)2cos(t), 2sin(t) >. A second car, Car B, starts at the edge of the lot at position re(0) =< 1,-2 >. At t-0, Car B accelerates from rest (initial velocity < 0,0 >) in a straight line with acceleration vector FB"(t)-0,c. Note: At t-0 Car A is at FA(0) 2,0and Car...
At time, t=0s, car A is at rest at the origin of the coordinate system and car B is moving due east at a constant velocity of 20.0m/s. When car B is 50.0m west of car A, car A starts to move at a constant acceleration of 2.00m/s2 due east. how far from the origin has car a moved when car B overtakes car A. use graph of position vs time for both cars.
Please help with this Kinematics question! Position and time graphs. Velocity vs. time graph. Consider this position vs. does the corresponding velocity vs. time graph look like? 1. time graph. What (a) Sketch your prediction below * Now reproduce the position graph by walking, and see if the velocity graph comes out the way you expect. 10 t (seconds) Velocity Graph Prediction Velocity Graph Result (m/s) o (m/s) 0 10 6 10 t (seconds) t (seconds) 2. Here's a velocity...