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Integration of Exponential Functions (1 Viewer)

V_L

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Hi,

Could someone please explain the following questions:

9. Find the volume of the solid formed when the curve y = e^−x + 1 is rotated about the x -axis from x = 1 to x = 2, correct to 1 decimal place.

11. (b) find integral of x(2 + x)e^x dx.

12. The curve y = √(e^x + 1) is rotated about the x- axis from x = 0 to x = 1. Find the exact volume of the solid formed.

13. Find the exact area enclosed between the curve y = e^2x and the lines y = 1 and x = 2.

Answers:

9. 4.8 units^3
11. (b) x^2e^x + C
10. 7.4
12. πe units^3
 

integral95

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Question 9 and 12 basically uses the volume formula



Q11 b) can't be integrated with 2U knowledge unless there's a previous part given.

Q13 Drawing the graph out you get a part of an area under the curve but an open rectangle at the bottom you must subtract.

The working is



i.e the area under the curve between x = 0 and 2 minus the rectangle
 
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1729

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Hi,

Could someone please explain the following questions:

9. Find the volume of the solid formed when the curve y = e^−x + 1 is rotated about the x -axis from x = 1 to x = 2, correct to 1 decimal place.

11. (b) find integral of x(2 + x)e^x dx.

12. The curve y = √(e^x + 1) is rotated about the x- axis from x = 0 to x = 1. Find the exact volume of the solid formed.

13. Find the exact area enclosed between the curve y = e^2x and the lines y = 1 and x = 2.

Answers:

9. 4.8 units^3
11. (b) x^2e^x + C
10. 7.4
12. πe units^3






 
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