Chapter 2.3, Problem 59E

a.

To determine

To find: The meaning of the term rejected.

Explanation of Solution

Given information:

The proof of Leibnitz rule

  $\begin{array}{c}d\left(uv\right)=\left(u+du\right)\left(v+dv\right)-uv\\ =uv+v.du+u.dv+du.dv-uv\\ =u.dv+v.du\end{array}$

Calculation:

The term “rejected” is used as it equals to approximately to zero or equal to zero.

Conclusion: So, the term rejected or ignored can be used.

b.

To determine

To find: The graph of velocity and acceleration.

Explanation of Solution

Given information:

The proof of Leibnitz rule

  $\begin{array}{c}d\left(uv\right)=\left(u+du\right)\left(v+dv\right)-uv\\ =uv+v.du+u.dv+du.dv-uv\\ =u.dv+v.du\end{array}$

Calculation:

The terms $du.dv$ is rejected in last step because $du$ and $dv$ are very small quantities.

Multiplication of two small quantities always results in a very smaller value than other terms in the equation.

Conclusion: So, the existence of the term $du.dv$ has no or little effect.

c.

To determine

To find: The result when the result is divided by $dx$ .

Answer to Problem 59E

The result matches with the product rule.

Explanation of Solution

Concept used:

The product rule is $\frac{d}{dx}\left(uv\right)=u.\frac{dv}{dx}+v.\frac{du}{dx}$ .

Given information:

The proof of Leibnitz rule

  $\begin{array}{c}d\left(uv\right)=\left(u+du\right)\left(v+dv\right)-uv\\ =uv+v.du+u.dv+du.dv-uv\\ d\left(uv\right)=u.dv+v.du\end{array}$

Calculation:

Divide both sides of the equation $d\left(uv\right)=u.dv+v.du$

  $d\left(uv\right)=u.dv+v.du$ by $dx$ .

  $\begin{array}{l}\frac{d}{dx}\left(uv\right)=\frac{d}{dx}\left(u.dv+v.du\right)\\ \frac{d}{dx}\left(uv\right)=u.\frac{dv}{dx}+v.\frac{du}{dx}\end{array}$

Conclusion: So, the result matches with the result of the product rule.

d.

To determine

To find: The reason behind the suggestion not to divide the Leibnitz rule by $dx$ .

Explanation of Solution

Concept used:

The division of any term by $0$ makes the result undefined.

Given information:

The proof of Leibnitz rule

  $\begin{array}{c}d\left(uv\right)=\left(u+du\right)\left(v+dv\right)-uv\\ =uv+v.du+u.dv+du.dv-uv\\ d\left(uv\right)=u.dv+v.du\end{array}$

Calculation:

The division of the result by $dx$ makes the result undefined.

The term $dx$ is a very small quantity.

Conclusion: So, the value of the result makes the result undefined.

e.

To determine

To find: The derivation of the quotient rule with the help of Leibnitz rule.

Answer to Problem 59E

The result is $d\left(\frac{u}{v}\right)=\frac{v.du-v.du}{v^2}$

Explanation of Solution

Concept used:

The quotient rule is $\frac{d}{dx}\left(\frac{u}{v}\right)=\frac{v.\frac{du}{dx}-u.\frac{dv}{dx}}{v^2}$ .

Given information:

The proof of Leibnitz rule

  $\begin{array}{c}d\left(uv\right)=\left(u+du\right)\left(v+dv\right)-uv\\ =uv+v.du+u.dv+du.dv-uv\\ d\left(uv\right)=u.dv+v.du\end{array}$

Calculation:

Derivation of the quotient rule is as shown below.

  $\begin{array}{c}d\left(\frac{u}{v}\right)=\frac{u+du}{v+dv}-\frac{u}{v}\\ =\frac{v.\left(u+du\right)-u.\left(v+dv\right)}{v^2+v.dv}\\ =\frac{v.u+v.du-u.v-u.dv}{v^2+v.dv}\\ =\frac{v.du-u.dv}{v^2}\end{array}$

Conclusion: So, the result provides the quotient rule.