这是一份ed.ac.uk爱丁堡大学MATH08058作业代写的成功案例
At time $t$ the coordinates of a car are $\phi(t)=\left(t^{2}, t^{3}\right)$. We wish to determine how fast, and in what direction, the car is heading at time $t=2$. First, we differentiate the parameterization:
$$
\phi^{\prime}(t)=\left\langle 2 t, 3 t^{2}\right\rangle
$$
Thus,
$$
\phi(2)=\langle 4,12\rangle
$$
The direction of the car is thus the direction that this vector is pointing. Its speed is given by the magnitude of this vector:
$$
|\langle 4,12\rangle|=\sqrt{4^{2}+12^{2}}=4 \sqrt{10}
$$
MATH08051 COURSE NOTES :
We find two vectors tangent to the graph of $z=x^{2}+y^{3}$ This surface is parameterized by
$$
\Psi(x, y)=\left(x, y, x^{2}+y^{3}\right)
$$
The desired point is at $\Psi(2,1)$. To find two tangent vectors we simply take the partial derivatives of $\Psi$ and evaluate at $(2,1)$.
$$
\frac{\partial \Psi}{\partial x}=\langle 1,0,2 x\rangle
$$
and so,
$$
\frac{\partial \Psi}{\partial x}(2,1)=\langle 1,0,4\rangle
$$
Similarly,
$$
\frac{\partial \Psi}{\partial y}=\left\langle 0,1,3 y^{2}\right\rangle
$$
and so,
$$
\frac{\partial \Psi}{\partial y}(2,1)=\langle 0,1,3\rangle
$$
We conclude $\langle 1,0,4\rangle$ and $\langle 0,1,3\rangle$ are two vectors tangent to the graph of $z=x^{2}+y^{3}$