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.
2. A car moves on a straight road. The car's position at time t is given...
1. A car moves along a straight street. The car's initial position at time tı is given by a position vector . The car's Iater position vector is at time ta. Suppose 700 mi and x, 400 mi a. If -丸= 3.0 seconds, what is the car's average speed (assuming the car only moved in one direction)? b. What was the car's average velocity?
1. A car moves along a straight street. The car's initial position at time t is given by a position vector T, The car's later position vector is , at time t2 Suppose T700 mi and T - 400 mi . a. If t2-t1 = 3,0 seconds, what is the car's average speed (assuming the car only moved in one direction)? b. What was the car's average velocity? 2. A runner jogs at a stendy pace of 15 km/hr. When...
A car is initially at rest on a straight road. The histogram below shows the car's acceleration along that road as a function of time. Calculate the speed of the car at t = 4 s. Calculate the distance traveled during the first 5 s. Calculate the distance traveled from t=10 s to t=13 s. Calculate the car's average speed from t = 6 s to t=9 s.
A car is initially at rest on a straight road. The histogram below shows the car's acceleration along that road as a function of time. Calculate the speed of the car at t = 4 s. -12m/s Calculate the distance traveled during the first 6 s. Calculate the distance traveled from t = 10 s to t = 14 s. Calculate the car's average speed from t = 5 s to t = 9 s.
any help would be great! A car is moving along a straight road. At time t seconds, the position of the car (in feet) is s(t) = 51. Find the average velocity of the car over the time intervals given below. (a) t = 11 to t= 11.1 seconds (b) t = 11 tot = 11.01 seconds (c) t = 11 to t = 11.001 seconds (a) The average velocity of the car over the time interval from t =...
A car is initially at rest on a straight road. The histogram below shows the car's acceleration along that road as a function of time 12345ธ7831011121314 Tine (s) Calculate the speed of the car at t 4 s. Submit Answer Tries 0/20 Calculate the distance traveled during the first 5 s. Submit Anawer Tries 0/20 Calculate the distance traveled from t-10 s to t-14 s. Subemit Arswer Tries 0/20 Calculate the car's average speed from t -5s to t-9 s...
A car is initially at rest on a straight road. The histogram below shows the car's acceleration along that road as a function of time. 1 -3 .1234567ธ9101112 14 Tine (s) Calculate the speed of the car at t3s. Your receipt no. is 158-5693Previous Tries 6.00 You are correct. Calculate the distance traveled during the first 5 s. 24.0 m ubAnwer Incorrect. Tries 19/20 Previous Tries Calculate the distance traveled from t-10 s to t=14 s 36 m The car...
A red car and a green car are traveling along a straight road in the same direction. The red car's position is given by x(t)=t3 and the green car is accelerating at a constant rate. At time t = 0, the green car is 132 m ahead of the red car. At t = 2 s, the red car reaches the same speed as the green car, and at t = 6 s, the red car catches up to the...
A car is initially at rest on a straight road. The histogram below shows the car's acceleration along that road as a function of time -2 1234567891B 11 12 13 14 Tine (s) Calculate the speed of the car att 9.00 m/s 4s You are correct Your receipt no. is 158-113 Previous Tries Calculate the distance traveled during the first 5 s 13.5 m Submit Answer Incorrect. Tries 2/20 Previous Tries Calculate the distance traveled from t=11 s to t=14...
A particle moves with position given by s(t) = t 1 with t > 0. + where s is in meters and t is in seconds (a) Find the velocity function u(t). (b) Find v(2). Include units in your answer. (c) Find the acceleration function a(t). (d) When is the particle at rest? (You only need to consider t 0.) (e) Find the total distance traveled by the particle on 0 STS 3.