A chauffeur heads south with a steady speed of v₁ = 22.0 m/s for t₁ = 3.00 min, then makes a right turn and travels at v₂ = 25.0 m/s for t₂ = 2.00 min, and then drives northwest at V3 = 30.0 m/s fort3 = 1.00 min. For this 6.00-min trip, calculate the following. Assume +x is in the eastward direction.(a) total vector displacement (Enter the magnitude in m and the direction in degrees south of west.)magnitudedirection(b) average speed (in m/s)m/smo south of west(c) average velocity (Enter the magnitude in m/s and the direction in degrees south of west.)m/s° south of westmagnitudedirection

This problem is based on vector calculus addition where we have to find displacement, speed, and…

Answered: A chauffeur heads south with a steady…

Similar questions

You throw a small rock straight up from the edge of a highway bridge that crosses a river. The rock passes you on its way down, 6.00 ss after it was thrown. What is the speed of the rock just before it reaches the water 27.0 mm below the point where the rock left your hand? Ignore air resistance.
Needs Complete typed solution with 100 % accuracy.
A vehicle travels at a speed of 4 m/ sec along a horizontal Circular road that has a radius of 50m its speed is then increased by ú= (0.05.s) m/sec² for a short distance from S = 0, where s is in meters. Calculate the magnitude of its acceleration when it has moved s = 10m in ml sec².
A mountain lion jumps to a height of 2.65 m when leaving the ground at an angle of 42.9°. What is its initial speed (in m/s) as it leaves the ground?
Question 8. You are traveling in a convertible with the top down. The car is moving at a constant velocity of 20.4 m/s, due east along flat ground. You throw a tomato straight upward at a speed of 5.68 m/s. How far has the car moved when you get a chance to catch the tomato? Ans: 23.65 m
A car, moving at the constant speed of 36 km per hour, enters (at t = 0) a ramp heading north. One minute later, it completes the turn and travels toward the east. Find its average acceleration (both magnitude and direction).
In reaching her destination, a backpacker walks with an average velocity of 1.48 m/s, due west. This average velocity results, because she hikes for 6.55 km with an average velocity of 2.75 m/s, due west, turns around, and hikes with an average velocity of 0.513 m/s, due east. How far east did she walk?
An antelope moving with constant acceleration covers the distance 65.0 mm between two points in time 7.00 ss. Its speed as it passes the second point is 16.0 m/sm/s.
A bike travels 6.53 x 103 m at 67.9 degrees North of East in a time of 2.56 x 103 seconds. The biker then has a drink for 1.23 x 103 seconds. She then rode a distance 6.05 x 103 m South in a time of 2.93 x 103 m seconds. She paused for 1.88 x 103 seconds, and it takes her back to her starting point. What was the magnitude of the average velocity of their entire ride?
The engineer of an intercity train observes a rock slide blocking the train's path 290.0 m ahead and activates the train's emergency brakes. The train decelerates uniformly at 1.6 m/s2 for 12.00 s before reaching the rock slide. What is the speed with which the train reaches the rock slide? 12.00 Your response differs from the correct answer by more than 10%. Double check your calculations. m/s Need Help? Read It
An ambulance driver is rushing a patient to the hospital. While traveling at 71.1 km/h, she notices the traffic light at the upcoming intersection has turned yellow. To reach the intersection before the light turns red, she must travel 52 m in 2.17 seconds. What is the magnitude of the minimum acceleration, in m/s2, required to reach the intersection before the light turns red?