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iGCSE (2021 Edition)

26.02 Power rule (x^n) (Extended)

Worksheet
Gradient function graphs
1

Consider the graph of y = x:

a

Find the gradient of the line at x = 4.

b

Find the gradient at any value of x.

c

What can be said about the gradient of a linear function?

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2

Consider the graph of y = x^{2} and its gradient function y = 2x:

a

What can be said of the sign of the gradient function when y = x^{2} is increasing or decreasing?

b

For x > 0, is the gradient of the tangent positive or negative?

c

For x \geq 0, as the value of x increases how does the gradient of the tangent line change?

d

For x < 0, is the gradient of the tangent positive or negative?

e

For x < 0, as the value of x increases how does the gradient of the tangent line change?

f

For y = x^{2}, the gradient of the tangent line changes at a constant rate. What type of function is the derivative of \\ y = x^{2}?

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3

Consider the graph of y = x^{3} and its gradient function y = 3x^2.

a

For x > 0, is the gradient of the tangent positive or negative?

b

For x \geq 0, as the value of x increases how does the gradient of the tangent line change?

c

For x < 0, is the gradient of the tangent positive or negative?

d

For x < 0, as the value of x increases how does the gradient of the tangent line change?

e

For y = x^{3}, the gradient of the tangent line first decreases at a decreasing rate, then increases at an increasing rate. What type of function is the derivative of y = x^{3}?

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4

Consider the graph of y = x^{4} and its gradient function y = 4x^3.

a

For x > 0, is the gradient of the tangent positive or negative?

b

For x \geq 0, as the value of x increases how does the gradient of the tangent line change?

c

For x < 0, is the gradient of the tangent positive or negative?

d

For x < 0, as the value of x increases how does the gradient of the tangent line change?

e

For y = x^{4}, the gradient of the tangent line is increasing, first at a decreasing rate and then at an increasing rate. What type of function is the derivative of \\ y=x^4?

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5

Consider the functions f \left( x \right) = x^{5} and g \left( x \right) = x^{4}.

a

Sketch the graph of f \left( x \right) and its derivative.

b

Sketch the graph of g \left( x \right) and its derivative.

c

If the degree of a function is even, will the degree of its derivative function be odd or even?

d

If the degree of a function is odd, will the degree of its derivative function be odd or even?

Algebraic differentiation
6
a

For each of the following functions, state the degree of the gradient function:

i

y = x^{2}

ii

y = x^{3}

iii

y = x^{4}

b

Hence, state the degree of the derivative of a polynomial function of degree n.

7

Find the derivative of the following functions with respect to x:

a
y = x^{7}
b
y = x^{9}
c
y = x^{5}
d
y = - 6
Applications
8

Find the gradient of f \left( x \right) = x^{4} at x = 2. Denote this gradient by f' \left( 2 \right).

9

Consider the function f \left( x \right) = x^{9}.

a

Find the gradient of the tangent to the function at x = 1.

b

Find the equation of the tangent to the function at x = 1.

10

David draws the graphs of x^{2}, x^{3}, x^{4} and x^{5} and draws the tangents to each one at the point where x = 1.

a

David then notices where each of the tangents cut the y-axis and records this in the table below:

\text{Graph}y\text{-intercept of the tangent line}\text{Gradient of the tangent}
y=x^2(0, -1)
y=x^3\left(0, -2\right)
y=x^4\left(0, -3\right)
y=x^5\left(0, -4\right)

Complete the table by calculating the gradient of each of the tangents at \\ x = 1.

b

Following the pattern in the table, what would be the gradient of the tangent to the graph of y = x^{n} at the point where x = 1?

c

Could the equation of the derivative of y = x^{6} be y' = x^{5}? Explain your answer.

11

The graph of y = x^{5} is shown below labelled as A. Fiona then graphs the derivative of the function, labelling it as B. She then finds the derivative of graph B to get graph C, then differentiates again to get graph D and differentiates again to get graph E.

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State whether the following statements are true about this sequence of derivatives:

a

The derivative of a function is always positive when the function is negative, and negative when the function is positive.

b

Each graph is a function of the form a x^{n}.

c

For any value of x, the value of the derivative will always be greater than the value of the function.

d

The degree of the derivative is always different to the degree of the function.

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Outcomes

0580E2.13A

Understand the idea of a derived function. Use the derivatives of functions of the form ax^n, and simple sums of not more than three of these.

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