Write an expression for the function which has a translation by 1 unit left of f(x) = $square root of x$ .

The graph of $g left parenthesis x right parenthesis equals square root of x plus 7$ is _________ of $f left parenthesis x right parenthesis equals square root of x$

Find the domain of the function $t left parenthesis x right parenthesis equals square root of x minus 2 end root$ .

Which of the following functions is the vertical translation of $f left parenthesis x right parenthesis equals square root of x$ .

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

Which of the following functions is the vertical translation of $f left parenthesis x right parenthesis equals square root of x$ .

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

Find the minimum point of the function $f left parenthesis x right parenthesis equals square root of x minus 2 end root plus 7$ .

The minimum point is also called the minima.

Find the minimum point of the function $f left parenthesis x right parenthesis equals square root of x minus 2 end root plus 7$ .

The minimum point is also called the minima.

How does the graph $s left parenthesis x right parenthesis equals square root of x plus 4 end root minus 5$ compared to the graph of $f left parenthesis x right parenthesis equals square root of x$ ?

There are 4 types of transformations vertical stretch, horizontal translation, vertical translation and horizontal stretch.

How does the graph $s left parenthesis x right parenthesis equals square root of x plus 4 end root minus 5$ compared to the graph of $f left parenthesis x right parenthesis equals square root of x$ ?

There are 4 types of transformations vertical stretch, horizontal translation, vertical translation and horizontal stretch.

Find the average rate of change of the function $r left parenthesis x right parenthesis equals square root of x minus 4 end root semicolon 5 less or equal than x less or equal than 10$

Average = difference in value of the function at extreme values of the variable divided by the difference in the extreme values of the variable.

Find the average rate of change of the function $r left parenthesis x right parenthesis equals square root of x minus 4 end root semicolon 5 less or equal than x less or equal than 10$

Average = difference in value of the function at extreme values of the variable divided by the difference in the extreme values of the variable.

Evaluate $p left parenthesis x right parenthesis equals 2 square root of x$ for the variable x = 3 to the nearest hundredth.

To find the value of a function, we have to put the value of the variable given.

Evaluate $p left parenthesis x right parenthesis equals 2 square root of x$ for the variable x = 3 to the nearest hundredth.

To find the value of a function, we have to put the value of the variable given.

Write an expression for the function which has a translation by 7 units down of $f left parenthesis x right parenthesis equals square root of x$

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

Write an expression for the function which has a translation by 7 units down of $f left parenthesis x right parenthesis equals square root of x$

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

Find the x-intercept and y-intercept of $y equals square root of x plus 1 end root$ .

Here we used the concept of intercepts. The points on a graph where the graph crosses the two axes are known as the intercepts (x-axis and y-axis). The x-coordinate is the location where the graph crosses the x-axis, and the y-coordinate is the location where the graph crosses the y-axis. So the intercepts are x-intercept = – 1; y-intercept = 1

Find the x-intercept and y-intercept of $y equals square root of x plus 1 end root$ .

The graph of $p left parenthesis x right parenthesis equals square root of x minus 3 end root$ is _________ of $f left parenthesis x right parenthesis equals square root of x$

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

The graph of $p left parenthesis x right parenthesis equals square root of x minus 3 end root$ is _________ of $f left parenthesis x right parenthesis equals square root of x$

There are 4 types of transformations vertical stretch, horizontal stretch, horizontal translation and vertical translation.

Compare the graph of the function with the graph of f(x) = IxI. Describe the transformation. g(x) = -4Ix – 2I – 1

A function is generally denoted by f(x) where x is the input. The general representation of a function is y = f(x).

Compare the graph of the function with the graph of f(x) = IxI. Describe the transformation. g(x) = -4Ix – 2I – 1

A function is generally denoted by f(x) where x is the input. The general representation of a function is y = f(x).

Compare the graph of the function with the graph of f(x) = IxI. Describe the transformation. g(x) = (1/3)Ix + 6I – 1

Know how to visualize a graph.

Compare the graph of the function with the graph of f(x) = IxI. Describe the transformation. g(x) = (1/3)Ix + 6I – 1

Know how to visualize a graph.

Emma wants to model the sides of a pyramid by using a function that includes an absolute value expression. Emma will place the pyramid on a coordinate grid as shown. What function should she use?

A function is generally denoted by f(x) where x is the input. The general representation of a function is y = f(x).

Emma wants to model the sides of a pyramid by using a function that includes an absolute value expression. Emma will place the pyramid on a coordinate grid as shown. What function should she use?

A function is generally denoted by f(x) where x is the input. The general representation of a function is y = f(x).

One part of a dog agility course is an obstacle called an A-frame. Assume that the left corner of the A-frame corresponds to the point (0, 0). What function that includes an absolute value expression could you use to model the obstacle?

A function is generally denoted by f(x) where x is the input. The general representation of a function is y = f(x).

One part of a dog agility course is an obstacle called an A-frame. Assume that the left corner of the A-frame corresponds to the point (0, 0). What function that includes an absolute value expression could you use to model the obstacle?