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Solve the Problem $g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3$

Question 235

Multiple Choice

Solve the problem.
- $g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3$ a. Identify the power function of the form $y = x ^ { n }$ that is the parent function to the given graph.
b. In order, outline the transformations that would be required on the graph of $y = x ^ { n }$ to make the Graph of the given function.
c. Match the function with the graph.
i.
$Solve the problem. - g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3 a. Identify the power function of the form y = x ^ { n } that is the parent function to the given graph. b. In order, outline the transformations that would be required on the graph of y = x ^ { n } to make the Graph of the given function. c. Match the function with the graph. i. ii. iii. iv. A) a. y = x ^ { 6 } b. Expand y = x ^ { 6 } horizontally by a factor of 5 . Reflect across the x - axis. Shift downward 3 units. c. Graph iv. B) a. y = x b. Expand y = x ^ { 6 } vertically by a factor of 5 . Reflect across the x - axis. Shift upward 3 units. c. Graph iv. C) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } vertically by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units, c. Graph i . D) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } horizontally by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units. c. Graph iii.$

ii.
$Solve the problem. - g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3 a. Identify the power function of the form y = x ^ { n } that is the parent function to the given graph. b. In order, outline the transformations that would be required on the graph of y = x ^ { n } to make the Graph of the given function. c. Match the function with the graph. i. ii. iii. iv. A) a. y = x ^ { 6 } b. Expand y = x ^ { 6 } horizontally by a factor of 5 . Reflect across the x - axis. Shift downward 3 units. c. Graph iv. B) a. y = x b. Expand y = x ^ { 6 } vertically by a factor of 5 . Reflect across the x - axis. Shift upward 3 units. c. Graph iv. C) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } vertically by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units, c. Graph i . D) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } horizontally by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units. c. Graph iii.$

iii.
$Solve the problem. - g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3 a. Identify the power function of the form y = x ^ { n } that is the parent function to the given graph. b. In order, outline the transformations that would be required on the graph of y = x ^ { n } to make the Graph of the given function. c. Match the function with the graph. i. ii. iii. iv. A) a. y = x ^ { 6 } b. Expand y = x ^ { 6 } horizontally by a factor of 5 . Reflect across the x - axis. Shift downward 3 units. c. Graph iv. B) a. y = x b. Expand y = x ^ { 6 } vertically by a factor of 5 . Reflect across the x - axis. Shift upward 3 units. c. Graph iv. C) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } vertically by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units, c. Graph i . D) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } horizontally by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units. c. Graph iii.$

iv.
$Solve the problem. - g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3 a. Identify the power function of the form y = x ^ { n } that is the parent function to the given graph. b. In order, outline the transformations that would be required on the graph of y = x ^ { n } to make the Graph of the given function. c. Match the function with the graph. i. ii. iii. iv. A) a. y = x ^ { 6 } b. Expand y = x ^ { 6 } horizontally by a factor of 5 . Reflect across the x - axis. Shift downward 3 units. c. Graph iv. B) a. y = x b. Expand y = x ^ { 6 } vertically by a factor of 5 . Reflect across the x - axis. Shift upward 3 units. c. Graph iv. C) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } vertically by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units, c. Graph i . D) a. y = x ^ { 6 } b. Shrink y = x ^ { 6 } horizontally by a factor of \frac { 1 } { 5 } . Reflect across the x - axis. Shift downward 3 units. c. Graph iii.$

A) a. $y = x ^ { 6 }$
b. Expand $y = x ^ { 6 }$ horizontally by a factor of 5 . Reflect across the $x$ - axis. Shift downward 3 units.
c. Graph iv.
B) a. $y = x$
b. Expand $y = x ^ { 6 }$ vertically by a factor of 5 . Reflect across the $x$ - axis. Shift upward 3 units.
c. Graph iv.
C) a. $y = x ^ { 6 }$
b. Shrink $y = x ^ { 6 }$ vertically by a factor of $\frac { 1 } { 5 }$ . Reflect across the $x$ - axis. Shift downward 3 units,
c. Graph $i$ .
D) a. $y = x ^ { 6 }$
b. Shrink $y = x ^ { 6 }$ horizontally by a factor of $\frac { 1 } { 5 }$ . Reflect across the $x -$ axis. Shift downward 3 units.
c. Graph iii.

Solve the Problem g(x)=−15x6−3g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3g(x)=−51​x6−3

Multiple Choice

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Solve the Problem $g ( x ) = - \frac { 1 } { 5 } x ^ { 6 } - 3$

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