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Questions

1 / 10

Time

Score

Calculate the distance

If v(t) = cos cos (π t), 0 ≤ t ≤ 2.5. Find the total distance traveled during the indicated time interval

1/π

(2/3) π

5/π

A missile is accelerating at a rate of 4 t m/sec ² from a position at rest in a silo 35 m below ground level. How high above the ground will it be after 6 seconds?

109 m

119 m

129 m

If v(t) = ) , 0 ≤ t ≤ 5. Find both the net distance

1/π

10

20

Fill in the blank:
In general, if v(t) is a velocity function, then he total distance is s(t ) =_______________

$\int_{t1}^{t2}v\left(x\right)dx$

$\int_0^{t2}v\left(x\right)dx$

$\int_{t1}^{t2}s\left(x\right)dx$

If v(t) = t , 0 ≤ t ≤ 1. Find both the net distance

(3-π)/2π

10π/3

20π/7

If v(t) = cos cos (πt) , 0 ≤ t ≤ 2.5. Find both the net distance

1/π

(2/3) π

5/π

If v(t) = +49 , 0 ≤ t ≤ 10. Find the total distance traveled during the indicated time interval

124

345

245

If v(t) = ) , 0 ≤ t ≤ 5. Find the total distance traveled during the indicated time interval

24

28

45

Fill in the blank:
In general, if v(t) is a velocity function, then the change in distance between t₁and t₂ is s ( t2) s ( t1) = ................

$\int_{t1}^{t2}v\left(x\right)dx$

$\int_0^{t2}v\left(x\right)dx$

$\int_{t1}^{t2}s\left(x\right)dx$

If v(t) = +49 , 0 ≤ t ≤ 10. Find both the net distance

1/π

1

0

Questions

Time

Score

Calculate the distance

If v(t) = cos cos (π t), 0 ≤ t ≤ 2.5. Find the total distance traveled during the indicated time interval

1/π

(2/3) π

5/π

A missile is accelerating at a rate of 4 t m/sec 2 from a position at rest in a silo 35 m below ground level. How high above the ground will it be after 6 seconds?

109 m

119 m

129 m

If v(t) = ) , 0 ≤ t ≤ 5. Find both the net distance

1/π

10

20

Fill in the blank:In general, if v(t) is a velocity function, then he total distance is s(t ) =_______________

﻿∫t1t2v(x)dx\int_{t1}^{t2}v\left(x\right)dx∫t1t2​v(x)dx﻿

﻿∫0t2v(x)dx\int_0^{t2}v\left(x\right)dx∫0t2​v(x)dx﻿

﻿∫t1t2s(x)dx\int_{t1}^{t2}s\left(x\right)dx∫t1t2​s(x)dx﻿

If v(t) = t , 0 ≤ t ≤ 1. Find both the net distance

(3-π)/2π

10π/3

20π/7

If v(t) = cos cos (πt) , 0 ≤ t ≤ 2.5. Find both the net distance

1/π

(2/3) π

5/π

If v(t) = +49 , 0 ≤ t ≤ 10. Find the total distance traveled during the indicated time interval

124

345

245

If v(t) = ) , 0 ≤ t ≤ 5. Find the total distance traveled during the indicated time interval

24

28

45

Fill in the blank:In general, if v(t) is a velocity function, then the change in distance between t1 and t2 is s ( t2) s ( t1) = ................

﻿∫t1t2v(x)dx\int_{t1}^{t2}v\left(x\right)dx∫t1t2​v(x)dx﻿

﻿∫0t2v(x)dx\int_0^{t2}v\left(x\right)dx∫0t2​v(x)dx﻿

﻿∫t1t2s(x)dx\int_{t1}^{t2}s\left(x\right)dx∫t1t2​s(x)dx﻿

If v(t) = +49 , 0 ≤ t ≤ 10. Find both the net distance

1/π

1

0

Incorrect

Great!

A missile is accelerating at a rate of 4 t m/sec ² from a position at rest in a silo 35 m below ground level. How high above the ground will it be after 6 seconds?

Fill in the blank:
In general, if v(t) is a velocity function, then he total distance is s(t ) =_______________

$\int_{t1}^{t2}v\left(x\right)dx$

$\int_0^{t2}v\left(x\right)dx$

$\int_{t1}^{t2}s\left(x\right)dx$

Fill in the blank:
In general, if v(t) is a velocity function, then the change in distance between t₁and t₂ is s ( t2) s ( t1) = ................

$\int_{t1}^{t2}v\left(x\right)dx$

$\int_0^{t2}v\left(x\right)dx$

$\int_{t1}^{t2}s\left(x\right)dx$