You just need to use your test-taking skill to eliminate the wrong answers here.
There is no such thing as a "Congruent Angles Postulate," so the last two choices can be eliminated.
The AA Similarity Postulate refers to triangles, not angles, so the second choice can be eliminated.
That only leaves the (correct) first choice.
To find if a point is a solution to a system of equations, we need to plug in the x and y values of the point into each equation, and see if the equation is true.
Let's plug it into the first equation first:
-2(3) - 4(-2) might = 2
-6 + 8 = 2
The first equation is true.
Now, we need to check the second equation:
3(3) + 4(-2) might =8
9 - 8 does not = 8
Therefore, even if the point satisfies one equation, it does not satisfy the other. We can conclude that this is not a solution.
Hope this helps!
The first one is congruent by ASA. The second does not have to be congruent, we don’t know enough.
Answer:
sorry about that v but to make it shorter the answer is undefined
Step-by-step explanation:
To calculate the slope (m) use the
The 2 points here are (12 ,10) and (12 ,5)
Division by 0 is undefined , hence slope is undefined.
This is, in fact, a line parallel to the y-axis and passing through all points in the plane with an x-coordinate equal to 12.
For this reason it's equation is x = 12
A 'quick' way to note when this situation occurs is to observe that the x-coordinates of the 2 given points are equal.
graph{y-1000x+12000=0 [-20, 20, -10, 10]}
