All categories

3 years ago

Graph the image mop for the translation

Mathematics

2 answers:

valentinak56 [21]3 years ago

7 0

Answer:

the correct points would be one unit to the right, thusly, (2,4) (4,-1) (-2,1)

Step-by-step explanation:

gregori [183]3 years ago

5 0

Answer:

The new points will be graphed at M'(-2, 1), O'(2, 3) and P'(4, -1)

Step-by-step explanation:

The coordinates of the pre-image are:

M(-3, 1); O(1, 3); and P(3, -1).

A translation one unit to the right will add 1 to each x-coordinate; this maps

M(-3, 1)→M'(-2, 1)

O(1, 3)→O'(2, 3)

P(3, -1)→(4, -1)

You might be interested in

Why isnt y = 3x+5 proportional?

Lisa [10]

Answer: The equation not represent a proportional relationship because the line don't passes through the origin

Step-by-step explanation:

7 0

2 years ago

If i= square root of -1, what is the value of i^3

Ber [7]

Answer:

$- i$

Step-by-step explanation:

Set up equation.

$i {}^{3} = y$

${i}^{2 } \times i = y$

$- 1 \times i = y$

$- i = y$

6 0

2 years ago

An exponential growth function has an asymptote of y = –3. Which might have occurred in the original function to permit the rang

Blababa [14]

The right choice is: A whole number constant could have been subtracted from the exponential expression.

Let be an exponential function of the form $y = A\cdot e^{B\cdot x}$ , where $A$ and $B$ are real numbers. A horizontal asymptote exists when $e^{B\cdot x} \to 0$ , which occurs for $B\cdot x \to - \infty$ .

For this function, the horizontal asymptote is represented by $y = 0$ and to change the value of the asymptote we must add the parent function by another real number ( $C$ ), that is to say:

$y = A\cdot e^{B\cdot x} + C$ (1)

In this case, we must use $C = -3$ to obtain an horizontal asymptote of -3. Thus, the right choice is: A whole number constant could have been subtracted from the exponential expression.