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Calculus 3 : 3-Dimensional Space

Study concepts, example questions & explanations for Calculus 3

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Example Questions

Example Question #121 : Calculus 3

Find the equation of a plane that passes through (1,2,3) and (3,4,5) .

Possible Answers:

2x-y+2z=0

x+2y+z=0

-x+2y-z=0 or x-2y+z=0

x-2y-z=0

Correct answer:

-x+2y-z=0 or x-2y+z=0

Explanation:

Take the cross product of the given points. This will result in an orthogonal vector to both (1,2,3) and (3,4,5) , whose components will be the corresponding direction ratios.

$(1,2,3)\times(3,4,5)=(-2,4,-2)$

Equation of the plane is

-2(x-x_0)+4(y-y_0)-2(z-z_0)=0

Now plug in (x_0,y_0,z_0)=(1,2,3) or (3,4,5) , you will have the answer

$-2(x-1)+4(y-2)-2(z-3)=0\\-2x+4y-2z+2-8+6=0\\-2x+4y-2z=0\\-x+2y-z=0$

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Example Question #122 : Calculus 3

Find the equation of the plane containing the points

A=(0, 0, 0), B=(0, 5, 0), C=(3, 7, 0)

Possible Answers:

z=0

$z=-\frac{1}{15}$

x=0

y=0

Correct answer:

z=0

Explanation:

To find the equation for the plane, we must first find two vectors contained within the plane:

$\vec{AB}=\left \langle 0, 5, 0\right \rangle, \vec{BC}=\left \langle 3, 2, 0\right \rangle$

We found these by subtracting the terminal point from the initial point for each vector (the terminal points being B and C, and the initial points A and B, respectively).

Now, we can write the determinant in order to take the cross product of the two vectors:

$\vec{AB}X\vec{BC}=\begin{vmatrix} \hat{i}& \hat{j}&\hat{k} \\ 0&5 &0 \\ 3& 2& 0 \end{vmatrix}$

where i, j, and k are the unit vectors corresponding to the x, y, and z direction respectively.

Next, we must find the cross product of the two vectors, in order to determine the normal vector to the plane. One can do this by multiplying across from the top left to the lower right, and continuing downward, and then subtracting the terms multiplied from top right to the bottom left:

$0+0+0-(15\hat{k}+0+0)=-15\hat{k}$

Now, we write out the equation of a plane, given by

a(x-x_0)+b(y-y_0)+c(z-z_0)=0 , where a, b, and c are the elements of the normal vector $\left \langle a, b, c\right \rangle$ , and (x_0, y_0, z_0) is any point on the plane.

Our normal vector is equal to $\left \langle 0, 0, 15\right \rangle$ , and we can pick point A, so the equation of the plane is

0(x-0)+0(y-0)-15(z-0)=0

which becomes

z=0

This answer should make sense because none of the points have a z component, so they are all on the x-y plane, thus the only plane containing all three is the one where z has no value.

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Example Question #123 : Calculus 3

Find the equation of the plane containing the point (2, 0, 4) and the normal vector given by $5\hat{j}+10\hat{k}$

Possible Answers:

5y+10z=0

2x+4z=40

5y+10z=-40

5y+10z=40

Correct answer:

5y+10z=40

Explanation:

The equation of a plane is given by:

a(x-x_0)+b(y-y_0)+c(z-z_0)=0 , where a, b, and c are the elements of the normal vector $\left \langle a, b, c\right \rangle$ , and (x_0, y_0, z_0) is any point on the plane.

Using the above formula, we get

0(x-2)+5(y-0)+10(z-4)=0

which becomes

5y+10z=40

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Example Question #124 : Calculus 3

Find the unit tangent vector to the curve:

$\vec{r}(t)=\tan(t)\hat{i}+\hat{j}+e^{2t}\hat{k}$

Possible Answers:

${\sec^2(t)\hat{i}+2e^{2t}\hat{k}}$

$\frac{\sec^2(t)\hat{i}+2e^{2t}\hat{k}}{\sqrt{\sec^2(t)+2e^{2t}}}$

$\frac{\sec^2(t)\hat{i}+\hat{j}+2e^{2t}\hat{k}}{\sqrt{\sec^4(t)+4e^{4t}}}$

$\frac{\sec^2(t)\hat{i}+2e^{2t}\hat{k}}{\sqrt{\sec^4(t)+4e^{4t}}}$

Correct answer:

$\frac{\sec^2(t)\hat{i}+2e^{2t}\hat{k}}{\sqrt{\sec^4(t)+4e^{4t}}}$

Explanation:

To find the unit tangent vector for a given curve, we must find the derivative of each of the components of the curve, and then divide this vector - the tangent vector - by the magnitude of the tangent vector itself.

To start, let's find the derivatives:

$\vec{r}'(t)=\sec^2(t)\hat{i}+0\hat{j}+2e^{2t}\hat{k}$

We used the following rules to find the derivatives:

$\frac{\mathrm{d} }{\mathrm{d} x} \tan(x)=\sec^2(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} e^u=e^u\frac{\mathrm{d} u}{\mathrm{d} x}$ , $\frac{\mathrm{d} }{\mathrm{d} x} ax=a$

Next, we must find the magnitude of the tangent vector, by taking the square root of the sum of the squares the x, y, and z components. Note that the vector we were given was in unit vector notation, and i, j, and k are each equal to one unit, so they don't impact the magnitude of the vector (they simply indicate direction).

$\left | \vec{r}(t)\right |= \sqrt{(\sec^2(t))^2+(2e^{2t})^2}=\sqrt{\sec^4(t)+4e^{4t}}$

Finally, divide the tangent vector by its magnitude:

$\frac{\sec^2(t)\hat{i}+2e^{2t}\hat{k}}{\sqrt{\sec^4(t)+4e^{4t}}}$

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Example Question #125 : Calculus 3

Find the equation of the plane containing the points

A=(0, 0, 0), B=(0, 6, 0), C=(0, 3, 3)

Possible Answers:

y=0

x=0

z=0

$x=\frac{1}{18}$

Correct answer:

x=0

Explanation:

To find the equation of a plane, we need a point on the plane and the normal vector to the plane, given by the cross product of two vectors on the plane.

To start, let's find these two vectors:

$\vec{AB}=\left \langle 0, 6, 0\right \rangle, \vec{BC}=\left \langle 0, -3, 3\right \rangle$

We found these by subtracting terminal points (B, C) and initial points (A, B, respectively).

Now, we can write the determinant in order to take the cross product of the two vectors:

$\vec{AB}X\vec{BC}=\begin{vmatrix} \hat{i}& \hat{j}&\hat{k} \\ 0&6 &0 \\ 0& -3& 3 \end{vmatrix}$

where i, j, and k are the unit vectors corresponding to the x, y, and z direction respectively.

Next, we take the cross product. One can do this by multiplying across from the top left to the lower right, and continuing downward, and then subtracting the terms multiplied from top right to the bottom left:

$18\hat{i}+0+0-(0+0+0)=18\hat{i}$

The equation of a plane is given by:

a(x-x_0)+b(y-y_0)+c(z-z_0)=0 , where a, b, and c are the elements of the normal vector $\left \langle a, b, c\right \rangle$ , and (x_0, y_0, z_0) is any point on the plane.

Our normal vector is $\left \langle 18, 0, 0\right \rangle$ , and the point we can choose is (0, 0, 0) . Using the above formula, we get

18(x-0)+0(y-0)+0(z-0)=0

18x=0

x=0

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Example Question #11 : Equations Of Lines And Planes

Find the unit tangent vector to the curve given by

$\vec{r}(t)=3t\hat{i}+e^t\hat{j}+t^3\hat{k}$

Possible Answers:

$\frac{3\hat{i}+e^t\hat{j}+3t^2\hat{k}}{\sqrt{9+e^{2t}+9t^4}}$

$\frac{3\hat{i}+e^t\hat{j}+9t^4\hat{k}}{\sqrt{9+e^{2t}+9t^4}}$

${3\hat{i}+e^t\hat{j}+3t^2\hat{k}}$

$\frac{3\hat{i}+e^t\hat{j}+3t^2\hat{k}}{\sqrt{3+e^{t}+3t^2}}$

Correct answer:

$\frac{3\hat{i}+e^t\hat{j}+3t^2\hat{k}}{\sqrt{9+e^{2t}+9t^4}}$

Explanation:

To start, let's find the derivatives:

$\vec{r}(t)=3\hat{i}+e^t\hat{j}+3t^2\hat{k}$

The derivatives were found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} e^u=e^u\frac{\mathrm{d} u}{\mathrm{d} x}$

$\left |\vec{r}(t) \right | = \sqrt{3^2+(e^t)^2+(3t^2)^2}=\sqrt{9+e^{2t}+9t^4}$

Finally, divide the vector by its magnitude:

$\frac{3\hat{i}+e^t\hat{j}+3t^2\hat{k}}{\sqrt{9+e^{2t}+9t^4}}$

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Example Question #11 : Equations Of Lines And Planes

Find the unit tangent vector to the given curve:

$\vec{r}=19t\hat{i}+\cos(t)\hat{j}+\sin(t)\hat{k}$

Possible Answers:

$\frac{19t\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}}{\sqrt{382}}$

$\frac{19\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}}{19}$

$\frac{19\hat{i}+\sin(t)\hat{j}+\cos(t)\hat{k}}{\sqrt{382}}$

$\frac{19\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}}{\sqrt{382}}$

Correct answer:

$\frac{19\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}}{\sqrt{382}}$

Explanation:

To start, let's find the derivatives:

$\vec{r}'(t)=19\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}$

The derivatives were found using the following rules:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} \cos(x)=-\sin(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} \sin(x)=\cos(x)$

$\left | \vec{r}'(t)\right |=\sqrt{(19)^2+(-\sin(t))^2+(\cos(t))^2}=\sqrt{19^2+1}=\sqrt{382}$

Finally, divide the tangent vector by its magnitude:

$\frac{19\hat{i}-\sin(t)\hat{j}+\cos(t)\hat{k}}{\sqrt{382}}$

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Example Question #13 : 3 Dimensional Space

Find the unit tangent vector given by the curve

$\vec{r}(t)=(te^t)\hat{i}+t^2\hat{j}+t^3\hat{k}$

Possible Answers:

$\frac{(2e^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}{\sqrt{e^{2t}(1+2t+t^2)+4t^2+9t^4}}$

$\frac{(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}{\sqrt{e^{2t}(1+2t+t^2)+4t^2+9t^4}}$

$\frac{(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}{\sqrt{e^{2t}(2t+t^2)+4t^2+9t^4}}$

$(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}$

Correct answer:

$\frac{(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}{\sqrt{e^{2t}(1+2t+t^2)+4t^2+9t^4}}$

Explanation:

To start, let's find the derivatives:

$\vec{r}'(t)=(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}$

We used the following rules to find them:

$\frac{\mathrm{d} }{\mathrm{d} x} f(x)g(x)=f'(x)g(x)+f(x)g'(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} e^u=e^u\frac{\mathrm{d} u}{\mathrm{d} x}$

$\left | \vec{r}'(t)\right |=\sqrt{(e^t+te^t)^2+(2t)^2+(3t^2)^2}=\sqrt{e^{2t}+2te^{2t}+t^2e^{2t}+4t^2+9t^4}$

Finally, divide the tangent vector by its magnitude:

$\frac{(e^t+te^t)\hat{i}+2t\hat{j}+3t^2\hat{k}}{\sqrt{e^{2t}(1+2t+t^2)+4t^2+9t^4}}$

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Example Question #131 : Calculus 3

Write the equation of the line - in vector form - passing through the two points

P_1=(1, 0, 0), P_2=(0, 3, 5)

Possible Answers:

$\left \langle t, 3, 5\right \rangle$

$\left \langle t, 3t, 5t\right \rangle$

$\left \langle t, 3-3t, 5-5t\right \rangle$

$\left \langle t, 3+3t, 5+5t\right \rangle$

Correct answer:

$\left \langle t, 3-3t, 5-5t\right \rangle$

Explanation:

To find the equation of the line, we first must find the vector passing between the two points:

$\vec{v}=(1, -3, -5)$

This was found by P_2-P_1 .

Next, we pick one point, and using the formula

$\vec{r}=\left \langle x_0, y_0, z_0\right \rangle+t\cdot \vec{v}$

we get our line:

$\vec{r}=\left \langle 0, 3, 5\right \rangle+t\left \langle 1, -3, -5\right \rangle=\left \langle t, 3-3t, 5-5t\right \rangle$

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Example Question #11 : Equations Of Lines And Planes

Write the equation for the plane containing the points

A=(2, 3, 4), B=(0, 0, 0), C=(3, -1, -4)

Possible Answers:

x=0

8x-20y+11z=0

3x-y-4z=0

-2x-3y-4z=0

Correct answer:

8x-20y+11z=0

Explanation:

To find the equation of the plane, we need a point on the plane, and the normal vector to the plane, which is given by the cross product of two vectors in the plane.

To start, let's find these vectors:

$\vec{AB}=\left \langle -2, -3, -4\right \rangle, \vec{BC}=\left \langle 3, -1, -4\right \rangle$

We found them by subtracting the terminal point (B, C) and the initial point (A, B, respectively).

Now, we can write the determinant in order to take the cross product of the two vectors:

$\vec{AB}X\vec{BC}=\begin{vmatrix} \hat{i}&\hat{j} &\hat{k} \\ -2& -3&-4 \\ 3& -1&-4 \end{vmatrix}$

where i, j, and k are the unit vectors corresponding to the x, y, and z direction respectively.

$12\hat{i}+2\hat{k}-12\hat{j}-(-9\hat{k}+4\hat{i}+8\hat{j})=8\hat{i}-20\hat{j}+11\hat{k}$

The equation of a plane is given by

a(x-x_0)+b(y-y_0)+c(z-z_0)=0 , where $\left \langle a, b, c\right \rangle$ is the normal vector and (x_0, y_0, z_0) is any point on the plane.

Using our normal vector $\left \langle 8, -20, 11\right \rangle$ and the point (0, 0, 0) , we get the equation

8x-20y+11z=0

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Calculus 3 : 3-Dimensional Space

Study concepts, example questions & explanations for Calculus 3

All Calculus 3 Resources

Example Questions

Example Question #121 : Calculus 3

Example Question #122 : Calculus 3

Example Question #123 : Calculus 3

Example Question #124 : Calculus 3

Example Question #125 : Calculus 3

Example Question #11 : Equations Of Lines And Planes

Example Question #11 : Equations Of Lines And Planes

Example Question #13 : 3 Dimensional Space

Example Question #131 : Calculus 3

Example Question #11 : Equations Of Lines And Planes

All Calculus 3 Resources

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