One member of your group owns a sports car and has recorded some data for the straight-line motion of the car
One member of your group owns a sports car and has recorded some data for the straight-line motion of the car. The figure below shows part of the velocity data for the motion.
(a) Determine the total distance (in m) the car traveled in the 50-s interval by evaluating the area under the red-brown graph line.
(b) What distance (in m) does the car travel between the times t = 10 s and t = 40 s?
(c) Draw a graph of its acceleration versus time between t = 0 and t = 50 s. (Submit a file with a maximum size of 1 MB.)
(d) Write an equation for x as a function of time, with numerical coefficients, for each of the segments 0a, ab, and bc.
(e) What is the average velocity (in m/s) of the car between t 0 and t= 50 s?
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One member of your group owns a sports car and has recorded some data for the straight-line motion of the car
The graph above shows the speed of a car traveling in a straight line as a...
The graph above shows the speed of a car traveling in a straight
line as a function of time. At t=0 s the speed of the car is 2.00
m/s. it accelerates uniformly and reaches a speed of 6.20 m/s in
8.00 s. Calculate the distance traveled by the car from a time of
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A ride-sharing car moving along a straight section of road starts from rest, accelerating at 2.00...
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The graph shows the speed of a car traveling in a straight line as a function...
The graph shows the speed of a car traveling in a straight line
as a function of time.
The value of vc is 4.10 m/s and the value of
vd is 7.40 m/s. Calculate the distance traveled by the
car from a time of 2.30 to 6.30 seconds.
Vd Tl 0 2 3 4 5 6 8 1 7 TIme, s
A car is initially at rest on a straight road. The histogram below shows the car'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...
Page of 3 8) A car travels a distance straight down the road according to the...
Page of 3 8) A car travels a distance straight down the road according to the equation x (r)=ara_b? . where a-2 m/s2 and b-0.1 m/s3 a) Calculate the average velocity of the car for the time interval t-0 s to t-10 s. b) Calculate the instantaneous velocity of the car at t-0 s, t-1 s, and t-5s. c) Other than at t-0, when is the car at rest? 9) The graph shows a car's position as a function of...
The graph shows the speed of a car traveling in a straight line as a function...
The graph shows the speed of a car traveling in a straight line as a function of time. 仂 0 01 2 3 45 6 78 Time, s The value of vc is 4.00 m/s and the value of Vd is 7.10 m/s. Calculate the distance traveled by the car from a time of 2.10 to 7.60 seconds 1705 m Note that the change in the acceleration of the car occurs at 1.00s, 3.00s and 5.00s Submit Answer Incorrect. Tries...
A machine’s motion is as shown below. NOTE: The line is NOT straight between t=6 and...
A machine’s motion is as shown below. NOTE: The line is
NOT straight between t=6 and t=8s.
1) Draw the s-t graph and a-t graph. Label key
points, axes; clearly distinguish between straight and curved
lines. Enter the value of acceleration, a, at t=8 s, for
the online answer below.
2) Determine the function of acceleration (a) and distance (s)
in terms of time (t) over the time interval 6 to 8 seconds.
18 15 12 9 6 velocity (ft/s)...
A machine’s motion is as shown below. NOTE: The line is NOT straight between t=6 and...
A machine’s motion is as shown below. NOTE: The line is
NOT straight between t=6 and t=8s.
1) Draw the s-t graph and a-t graph. Label key
points, axes; clearly distinguish between straight and curved
lines. Enter the value of acceleration, a, at t=8 s, for
the online answer below.
2) Determine the function of acceleration (a) and distance (s)
in terms of time (t) over the time interval 6 to 8 seconds.
18 15 12 9 6 velocity (ft/s)...
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A ride-sharing car moving along a straight section of road starts from rest, accelerating at 2.00 m/s2 until it reaches a speed of 32.0 m/s. Then the vehicle moves for 41.0 s at constant speed until the brakes are applied, stopping the vehicle in a uniform manner in an additional 5.00 s. (a) How long is the ride-sharing car in motion (in s)? 62 (b) What is the average velocity of the ride-sharing car for the motion described? (Enter the...
The graph shows the speed of a car traveling in a straight line
as a function of time.
The value of vc is 4.10 m/s and the value of
vd is 7.40 m/s. Calculate the distance traveled by the
car from a time of 2.30 to 6.30 seconds.
Vd Tl 0 2 3 4 5 6 8 1 7 TIme, 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...
Page of 3 8) A car travels a distance straight down the road according to the equation x (r)=ara_b? . where a-2 m/s2 and b-0.1 m/s3 a) Calculate the average velocity of the car for the time interval t-0 s to t-10 s. b) Calculate the instantaneous velocity of the car at t-0 s, t-1 s, and t-5s. c) Other than at t-0, when is the car at rest? 9) The graph shows a car's position as a function of...
The graph shows the speed of a car traveling in a straight line as a function of time. 仂 0 01 2 3 45 6 78 Time, s The value of vc is 4.00 m/s and the value of Vd is 7.10 m/s. Calculate the distance traveled by the car from a time of 2.10 to 7.60 seconds 1705 m Note that the change in the acceleration of the car occurs at 1.00s, 3.00s and 5.00s Submit Answer Incorrect. Tries...
A machine’s motion is as shown below. NOTE: The line is
NOT straight between t=6 and t=8s.
1) Draw the s-t graph and a-t graph. Label key
points, axes; clearly distinguish between straight and curved
lines. Enter the value of acceleration, a, at t=8 s, for
the online answer below.
2) Determine the function of acceleration (a) and distance (s)
in terms of time (t) over the time interval 6 to 8 seconds.
18 15 12 9 6 velocity (ft/s)...
A machine’s motion is as shown below. NOTE: The line is
NOT straight between t=6 and t=8s.
1) Draw the s-t graph and a-t graph. Label key
points, axes; clearly distinguish between straight and curved
lines. Enter the value of acceleration, a, at t=8 s, for
the online answer below.
2) Determine the function of acceleration (a) and distance (s)
in terms of time (t) over the time interval 6 to 8 seconds.
18 15 12 9 6 velocity (ft/s)...
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