Answer:
In could be mean inches? otherwise there is not enough context to know sorry :/
Step-by-step explanation:
Answer: the second choice: (0, - 2) and (1, 0).
Explanation:
1) The solution of a graphed system of equations is the points of intersection of the equations.
2) Hence, this method requires to graph each function in one Cartesian coordinate system.
3) To graph the function y = x² + x - 2, you can follow these steps
- draw the perpendicular x(horizontal)-axis, and y(vertical)- axis
- mark the divisions in each axis (1 unit is a good scale for this case)
- notice that y = x² + x - 2 is a parabola
- write y = x² + x - 2 in its vertex form following these steps:
y = (x² + x) - 2
y + 1/4 = (x² + x + 1/4) - 2
y + 1/4 = (x + 1/2)² - 2
y = (x + 1/2)² - 2 - 1/4
y = (x + 1/2)² - 9/4
Compare with the vertex form y = (x + h)² + k, where the coordinates of the vertex are (h,k). Therefore, the vertex is (1/2, - 9/4).
- The parabola open upwards (because the coefficient of the quadratic term is positive).
- Find the y-intercept (x =0) and x-intercepts (y = 0), and write a table with some values:
4) To graph the function y = 2x - 2, you can follow these steps:
- Use the same Cartesian coordinate system
- Notice it is a line
- The slope is 2 (the coefficient of x)
- The y-intercept is - 2( the constant term)
- Build a table (use the same x-values used for the first graph)
- x y = 2x - 2
- -2 - 6
- -1 - 4
- -1/2 - 3
- 0 - 2
- 1/2 - 1
- 1 0
- 2 2
The tables show that these points are common to the two functions: (0, - 2) and (1,0).
The graphs are shown in the figure attached.
You can see that the parabola (blue curve) and the line (purple line) intercept each other at those two points ( 0, - 2) and (1,0).
If you plug in the x and y values for the points (X,Y).
Then you are able to solve for the equation by seeing whether or not it equals the Y value.
Ex. Solving 9a.
Step One Equation and Point (2,0) or (X,Y)
Step 2 Plug in and solve
0=4-6+2
0=0
Done and Answer is Yes it does fit.
<h3>
Answer: Yes it is a function</h3>
===============================================
Here are some reasons why
- We can solve x+2y = 7 for y to get y = -0.5x+3.5; this equation is in slope intercept form y = mx+b. All equations in the form y = mx+b are linear and also a function.
- For any input x, there is exactly only one y value that pairs with it.
- The vertical line test can be used to effectively verify item #2 above. The idea is that it is impossible to draw a vertical line through more than one point on the graph. So it is said to pass the vertical line test.
Answer:
Assuming this: * means a multiplication symbol, the answer is 56.
Step-by-step explanation:
1. Replace every single x with 20.
2. 20 + 20 * 2 - 20/5
3. Simplify the equation
4. 20 + 40 - 4 (Order of operations. To remember this use
P(parentheses)
E(exponents)
M(multiplication)
D(division)
A(addition)
S(subtraction)
Top to bottom represents which operations you should do first while simplifiying an equation. Addition and subtraction are in equal places. This is the same with multiplication and division.
5. 20 + 40= 60 - 4= 56