The graphs of two functions, $f$ and $g$, are shown on the grid below. The functions are: $$f(x) = x^2 - 2x - 3$$ $$g(x) = x + 1$$ (a) Match the graphs to the functions by writing $f(x)$ or $g(x)$ in the boxes beside the corresponding graphs on the grid. (b) For one of the functions above, explain how you decided on your answer. Function: Explanation: (c) Use the graph to find $f(2)$. $f(2) = $ (d) Verify your answer to (c) above by finishing the following calculation. $$f(2) = (2)^2 - 2(2) - 3 = $$ (e) Use the graph to find the value of $x$ for which $g(x) = 3$. $x = $ (f) Use the graphs to find the values of $x$ for which $x^2 - 2x - 3 = x + 1$. $x = $ and $x = $

Junior Cycle Mathematics Functions & Graphs: The graphs of two functions, $f$

The graphs of two functions, $f$ and $g$, are shown on the grid below - Junior Cycle Mathematics - Question 14 - 2015

Question 14

The graphs of two functions, $f$ and $g$, are shown on the grid below. The functions are: $$f(x) = x^2 - 2x - 3$$ $$g(x) = x + 1$$ (a) Match the graphs to the func... show full transcript

Worked Solution & Example Answer:The graphs of two functions, $f$ and $g$, are shown on the grid below - Junior Cycle Mathematics - Question 14 - 2015

Step 1

Match the graphs to the functions

96%

114 rated

Answer

From observing the graphs, the function $f(x)$ is represented by the parabola (the U-shaped graph) because it describes a quadratic function. Therefore, we write $f(x)$ in the corresponding box for that graph. The function $g(x)$ is represented by the straight line because it is linear, so we write $g(x)$ next to that graph.

Step 2

For one of the functions above, explain how you decided on your answer.

99%

104 rated

Answer

Function: $f(x)$

Explanation: I identified $f(x)$ as the parabola because quadratic functions produce U-shaped graphs. In contrast, $g(x)$ as a linear function corresponds to a straight line. Thus, by analyzing the shape of the graphs, I matched them correctly.

Step 3

Use the graph to find $f(2)$.

96%

101 rated

Answer

$f(2)$ is found by following the $x$ -value of 2 on the graph and reading vertically downwards to find the corresponding $y$ -value. In this case, $f(2) = -3$ .

Step 4

Verify your answer to (c) above by finishing the following calculation.

98%

120 rated

Answer

Calculating:

$f(2) = (2)^2 - 2(2) - 3$

$= 4 - 4 - 3 = -3$

Step 5

Use the graph to find the value of $x$ for which $g(x) = 3$.

97%

117 rated

Answer

To find $x$ such that $g(x) = 3$ , I locate the line $g(x)$ on the vertical line at $y = 3$ and find the intersection point. This occurs when $x = 2$ .

Step 6

Use the graphs to find the values of $x$ for which $x^2 - 2x - 3 = x + 1$.

97%

121 rated

Answer

For this equation, I set the two graphs equal to each other and find their points of intersection. This is satisfied at the points $(-1, 0)$ and $(4, 5)$ , thus, $x = -1$ and $x = 4$ .

The graphs of two functions, $f$ and $g$, are shown on the grid below - Junior Cycle Mathematics - Question 14 - 2015

Worked Solution & Example Answer:The graphs of two functions, $f$ and $g$, are shown on the grid below - Junior Cycle Mathematics - Question 14 - 2015

Match the graphs to the functions

For one of the functions above, explain how you decided on your answer.

Use the graph to find $f(2)$.

Verify your answer to (c) above by finishing the following calculation.

Use the graph to find the value of $x$ for which $g(x) = 3$.

Use the graphs to find the values of $x$ for which $x^2 - 2x - 3 = x + 1$.

Join the Junior Cycle students using SimpleStudy...