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9.08 The quotient rule

Interactive practice questions

Consider the function $y=\frac{3}{x}$y=3x.

a

By first re-writing with a negative index, find $\frac{dy}{dx}$dydx.

$y=3x^{\editable{}}$y=3x

$\frac{dy}{dx}=\editable{}x^{\editable{}}$dydx=x

b

Use the quotient rule to differentiate $y=\frac{3}{x}$y=3x.

$\frac{dy}{dx}=\frac{x\times\left(\editable{}\right)-3\times\left(\editable{}\right)}{x^{\editable{}}}$dydx=x×()3×()x

$\frac{dy}{dx}=\editable{}$dydx=

c

In which two quadrants of the number plane does the hyperbola $y=\frac{3}{x}$y=3x exist?

$I$I

A

$II$II

B

$III$III

C

$IV$IV

D
d

For what value of $x$x is the gradient of $y$y undefined?

Easy
2min

Suppose we want to differentiate $y=\frac{2x-5}{5x-2}$y=2x55x2 using the quotient rule.

Easy
4min

Suppose we want to differentiate $y=\frac{5x^2}{2x+8}$y=5x22x+8 using the quotient rule.

Easy
6min

Suppose we want to differentiate $y=\frac{3x}{5x-4}$y=3x5x4 using the quotient rule.

Easy
2min
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Outcomes

2.5.1.1

understand and apply the product rule and quotient rule for power and polynomial functions

2.5.1.3

select and apply the product rule, quotient rule and chain rule to differentiate power and polynomial functions; express derivative in simplest and factorised form

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