Answer:
1. B
2. C
3. A
4. D
Step-by-step explanation:
The parametric equations of the circular cylinder are:
[tex]x(u,v)=a\cos v\\y(u,v)=a\sin v\\z(u,v)=u[/tex]
If the orientation of the cylinder is changed to have the height [tex]u[/tex] along the x-axis, the parametric equations of the cylinder match:
[tex]3. \mathbf{r} \left( u, v \right) = u \mathbf{i} + \cos v \mathbf{j} + \sin v \mathbf{k}[/tex]
The parametric equations of the circular paraboloid are:
[tex]x(u,v)=u\cos v\\y(u,v)=u\sin v\\z(u,v)=u^2[/tex]
Using the units vectors the parametric equations match:
[tex]1. \mathbf{r} \left( u, v \right) = u \cos v \mathbf{i} + u \sin v \mathbf{j} + u^{2} \mathbf{k}[/tex]
The parametric equations of the cone are:
[tex]x(u,v)=au\cos v\\y(u,v)=au\sin v\\z(u,v)=u[/tex]
Using the units vectors and rotating the base of the cone from [tex]z=0[/tex] to [tex]x=0[/tex] the parametric equations match:
[tex]2. \mathbf{r} \left( u, v \right) = u \mathbf{i} + u \cos v \mathbf{j} + u \sin v \mathbf{k}[/tex]
The equation left is the equation of a plane:
[tex]4. \mathbf{r} \left( u, v \right) = u \mathbf{i} + v \mathbf{j} + \left( 2u - 3v \right) \mathbf{k}[/tex]
