volumes integration help plz! (1 Viewer)

koolkid59 · Dec 27, 2011

Find the volume of the soild generated by rotating the region bounded by the following curves about .....

the x-axis:
c) y = 5x-x^2 and y = 0
d) y = x^3-x and y = 0

the y-axis:
a) x = y - 2, y = 1, and x = 0

plz show working clearly....
thanks in advance!

bleakarcher · Dec 27, 2011

You have to be specific with d) in terms of which quadrant the region is located in.

SpiralFlex · Dec 27, 2011

c) $y=5x-x^2$

Factorising, $y=x(5-x)$

Of course this shape comes to no surprise. It is a parabola.

So we want to rotate the region enclosed between the graph and the line $y=0$ (In other words, the $x$ axis.). It is also good to visualise the shape when rotated especially in later HSC Mathematics.

The shape is a CD PlAYER FROM SANTA.

$V=\pi \int_{0}^{5}(5x-x^2)^2\; \mathrm{d} x}$

$=\pi \int_{0}^{5}(25x^2-10x^3+x^4)\; \mathrm{d} x}$

$=\pi [\frac{25x^3}{3}-\frac{5x^4}{2}+\frac{x^5}{5}]_{0}^{5}$

$=104 \frac{1}{6} \pi \; \textup{units}^3$

d) $y=x^3-x$

$y=x(x-1)(x+1)$

It is a cubic!

Of course straight away you should realise that this cubic is actually an odd function. (Symmetrical about the origin) We can use such a powerful knowledge to simplify our integrals. I think it's good to show this however.

Let $f(x)=x^3-x$

$f(-x)=(-x)^3-(-x)$

$=-(x^3-x)$

$=-f(x)$

Hence the function is an odd function.

Draw it!

If we said it has symmetry about the origin, then both parts are equal in volume. So we need to find one volume and just double it! You will find the shape to be TWO DISTORTED TENNIS BALLS! (Close to it anyway.)

$V=2\pi \int_{0}^{1}(x^3-x)^2\; \mathrm{d} x}$

$=2\pi \int_{0}^{1}(x^6-2x^4+x^2)\; \mathrm{d} x}$

$=2\pi[\frac{x^7}{7}-\frac{2x^5}{5}+\frac{x^3}{3}]_{0}^{1}$

$=\frac{16\pi}{105}\; \textup{units}^3$

e) Drawing another diagram, of course this shape is linear!

$V=\pi \int_{1}^{2}(y-2)^2\; \mathrm{d} y}$

$=\int_{1}^{2}(y^2-4y+4)\; \mathrm{d} y}$

$=\pi [\frac{y^3}{3}-2y^2+4y]_{1}^{2}$

$=\frac{\pi}{3}\; \textup{units}^3$

Alternatively, this shape is an CORNETTOS ICE-CREAM CONE!

$V=\frac{1}{3} \pi r^2 h$

$=\frac{1}{3} \pi (1)^2 (1)$

$\therefore V= \frac{\pi}{3}\; \textup{units}^3$

bleakarcher · Dec 27, 2011

Spiralflex, the question was on volume, not area.

SpiralFlex · Dec 27, 2011

bleakarcher said:
Spiralflex, the question was on volume, not area.

BLERRRRRRGGGGGHHHHHHHH!

bleakarcher · Dec 27, 2011

koolkid59 said:
Find the volume of the soild generated by rotating the region bounded by the following curves about .....

the x-axis:
c) y = 5x-x^2 and y = 0
d) y = x^3-x and y = 0

the y-axis:
a) x = y - 2, y = 1, and x = 0

plz show working clearly....
thanks in advance!

c) V=pi*integral[y^2] dx from x=0 to x=5
V=pi*integral[25x^2-10x^3+x^4] dx from x=0 to x=5
V=pi*[(25/3)x^3-(5/2)x^4+(1/5)x^5] from x=0 to x=5
d) V=2pi*integral[y^2] dx from x=0 to x=1 since y is odd
V=2pi*integral[x^6-2x^4+x^2] dx from x=0 to x=1
V=2pi[(1/7)x^7-(2/5)x^5+(1/3)x^3] from x=0 to x=1
a) V=pi*integral[x^2] dy from y=1 to y=2
V=pi*integral[y^2-4y+4] from y=1 to y=2
V=pi[(1/3)y^3-2y^2+4y] from y=1 to y=2

Evaluate.

Carrotsticks · Dec 27, 2011

SpiralFlex said:
BLERRRRRRGGGGGHHHHHHHH!

lol'd hard.

Lemiixem · Dec 27, 2011

Can someone help my understand how:
x^3 = y turns into x = y^1/3
Similar to that how would I make x by itself in this equation:
x^3 = y - 2 turns into x = !?!??!!

SpiralFlex · Dec 27, 2011

Lemiixem said:
Can someone help my understand how:
x^3 = y turns into x = y^1/3
Similar to that how would I make x by itself in this equation:
x^3 = y - 2 turns into x = !?!??!!

I think you mean make $x$ the subject of the formulae.

$x^3=y$

The reason $x=y^{\frac{1}{3}}$ is because if we cube something, to get the variable by itself, we need to cube root it. So that is why we cube root both the LHS and RHS.

The same argument goes for the next question.

$x^3=y-2$

$x=\sqrt[3]{y-2}$

Rearranging this to index form,

$x=(y-2)^{\frac{1}{3}}$

wilsondw · Dec 27, 2011

bleakarcher said:
Spiralflex, the question was on volume, not area.

I dun get it..how was his working out not related to volume?

He used pi didnt he? or she

SpiralFlex · Dec 27, 2011

wilsondw said:
I dun get it..how was his working out not related to volume?

He used pi didnt he? or she

I accidentally mistook the question for area. Did not read it properly. I have edited the post.

volumes integration help plz! (1 Viewer)

koolkid59

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SpiralFlex

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bleakarcher

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Carrotsticks

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