7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$. 7.3 The tangent to $g(x)=ax^{4}+3x^{3}+bx+c$ has a minimum gradient at the point $(-1;-7)$. For which values of $x$ will $g$ be concave up?

NSC Mathematics Finance growth and decay: 7.1 Determine $f’(x)$ from first

7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$ - NSC Mathematics - Question 7 - 2022 - Paper 1

Question 7

$7.1-Determine-$f’(x)$-from-first-principles-if-$f(x)=x^{2}+x.$--7.2-Determine-$f’(x)$-if-$f(v)=2v^{2}-3v^{3}+8v$-NSC Mathematics-Question 7-2022-Paper 1.png$

7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$. 7.3 The tangent to $g(x)=ax^{4}+3x^{3}+bx+c$ has a... show full transcript

Worked Solution & Example Answer:7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$ - NSC Mathematics - Question 7 - 2022 - Paper 1

Step 1

Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$

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Answer

To find the derivative using first principles, we apply the limit definition:

$f’(x) = ext{lim}_{h o 0} \frac{f(x+h) - f(x)}{h}$

Given that $f(x) = x^{2} + x$ , we calculate:

$f(x+h) = (x+h)^{2} + (x+h) = x^{2} + 2xh + h^{2} + x + h$ .
Therefore, $f(x+h) - f(x) = (x^{2} + 2xh + h^{2} + x + h) - (x^{2} + x) = 2xh + h^{2} + h$ .
Now substituting into the limit:

$f’(x) = ext{lim}_{h o 0} \frac{2xh + h^{2} + h}{h}$
Canceling $h$ gives:

$f’(x) = ext{lim}_{h o 0} (2x + h + 1)$
Taking the limit as $h$ approaches $0$ , we find:

$f’(x) = 2x + 1.$

This means that $f’(x) = 2x + 1$ .

Step 2

Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$.

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Answer

To find $f’(v)$ :

Differentiate the function term by term:
- The derivative of $2v^{2}$ is $4v$ .
- The derivative of $-3v^{3}$ is $-9v^{2}$ .
- The derivative of $8v$ is $8$ .
Therefore, $f’(v) = 4v - 9v^{2} + 8.$
Arrange it neatly: $f’(v) = -9v^{2} + 4v + 8.$

Step 3

The tangent to $g(x)=ax^{4}+3x^{3}+bx+c$ has a minimum gradient at the point $(-1;-7)$. For which values of $x$ will $g$ be concave up?

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Answer

To determine where the function $g(x)$ is concave up, we need to find the second derivative:

First, compute the first derivative: $g’(x) = 4ax^{3} + 9x^{2} + b.$
Next, compute the second derivative: $g’’(x) = 12ax^{2} + 18x.$
For the function to be concave up, we require: $g’’(x) > 0.$
Analyze at the point $x = -1$ $x = - 1$ where minimum gradient is given:
- Substituting $x = -1$ gives: $g’(-1) = 6a(-1) + 6 = 0.$
- For concavity, if we simplify:

ightarrow 12a - 18 > 0.$$

This leads to: $a > 1.$ Hence, $g(x)$ is concave up when $x$ is in the interval where $a > 1$ .

7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$ - NSC Mathematics - Question 7 - 2022 - Paper 1

Worked Solution & Example Answer:7.1 Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$ 7.2 Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$ - NSC Mathematics - Question 7 - 2022 - Paper 1

Determine $f’(x)$ from first principles if $f(x)=x^{2}+x.$

Determine $f’(x)$ if $f(v)=2v^{2}-3v^{3}+8v$.

The tangent to $g(x)=ax^{4}+3x^{3}+bx+c$ has a minimum gradient at the point $(-1;-7)$. For which values of $x$ will $g$ be concave up?

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