Select the graph of the solution. Click until the correct graph appears. pls helpx < 4
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Answer:
The correct one is the one on the left.
(the arrow pointing to the left)
Related Questions
If f(x) = x2 + 2x – 10, what is f(-2)?
Emmett squeezed 1/3 cup of orange juice in 2 minutes. He divided to find how many cups of orange juice he could squeeze per minute, but he made a mistake. Which reason explains why his answer must be wrong?
What multiplies to -160 and adds to 6
If p(x) = x +9, and q(x) = 2x² + 3x, find p(2a) - q(a)
Answers
Answer:
1951.1
Step-by-step explanation:
Just add her money up 920.65 + 1030.45= 1951.1
-9x+2y=-6
substitution
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Answers
Answer:
You can't be sure without an image.
Step-by-step explanation:
If one moves left or right, that's a horizontal translation.
If one moves up or down, it's a vertical translation.
A dialation is when the image gets smaller or bigger.
Answers
The dimensions that give the maximum area is 5 cm by 5 cm.
Given:
The perimeter of this rectangle is 20 cm, and formula for perimeter is
P= 2(W+L)
P = 20 cm = 2W + 2L.
Then W + L = 10 cm,
or W = (10 cm) - L.
The area of the rectangle is A = L·W, and is to be maximized.
On substituting the values, we get A = L[ (10 cm) - L ], or A = 10L - L²
Note that this is the equation of a parabola that opens down. With coefficients a = -1, b = 10 and C = 0, we find that the x-coordinate of the vertex (which is the x-coordinate of the maximum as well) is
x = -b / (2a). Subbing 10 for b and -1 for a, we get:
x = -[10] / [2·(-1)] = 10/2, or 5.
This tells us that one dimension of the rectangle is 5 cm.
Since P = 20 cm = 2L + 2W, and if we let L = 5 cm, we get:
20 cm = 2(5 cm) + 2W, or
10 cm = W + 5 cm, or W = 5 cm.
Therefore, choosing L = 5 cm and W = 5 cm results in a square, which in turn leads to the rectangle having the maximum possible area.
Learn more:
Answer:
5 cm by 5 cm
Step-by-step explanation:
The perimeter of this rectangle is 20 cm, and the relevant formula is
P = 20 cm = 2W + 2L. Then W + L = 10 cm, or W = (10 cm) - L.
The area of the rectangle is A = L·W, and is to be maximized. Subbing (10 cm) - L for W, we get A = L[ (10 cm) - L ], or A = 10L - L²
Note that this is the equation of a parabola that opens down. With coefficients a = -1, b = 10 and C = 0, we find that the x-coordinate of the vertex (which is the x-coordinate of the maximum as well) is
x = -b / (2a). Subbing 10 for b and -1 for a, we get:
x = -[10] / [2·(-1)] = 10/2, or 5.
This tells us that one dimension of the rectangle is 5 cm.
Since P = 20 cm = 2L + 2W, and if we let L = 5 cm, we get:
20 cm = 2(5 cm) + 2W, or
10 cm = W + 5 cm, or W = 5 cm.
Thus, choosing L = 5 cm and W = 5 cm results in a square, which in turn leads to the rectangle having the maximum possible area.
Answers
15÷3 = 5
18÷3 = 6
15 - 5 = 10
18 - 6 = 12
Answers
Answer
5 units
Explanation
The translation of the points X<Y and Z makes a right triangle with legs 3 units and 4 units.
The distance between the correspong is the hypotenuse of the triangle.
Using the Pythagoras theorem;
c² = a² + b²
Where a and b are the legs and c is the hypotenuse.
c² = 3² + 4²
= 9 + 16
= 25
c = √25
= 5 units