Answer:
The correct option is;
1
Step-by-step explanation:
A line in geometry is an array of points that lay on the path of a ray and extends along the ray path in both directions infinitely, while a point in geometry marks a location
Therefore, given that the points A and B are on the same line, and are therefore on the same ray that gives the direction of the line, the number of distinct lines that can contain the both A and B, given that the original line extends to infinity in both direction is 1.
Answer:
The answer in the procedure
Step-by-step explanation:
we have the right triangle ABC
The pre-image coordinates are
The transformation to use is the translation
The rule of the translation is
That means----> The translation is 10 units to the right
The image coordinates are
Applying the rule of the translation
using a graphing tool
see the attached figure
Answer:
I didn't know some answers but I wrote the majority of them below!
Step-by-step explanation:
Symmetry of axis: (4, 0)
Vertex: (4, -3)
Domain: 14? (I'm not positive on this one! so sorry)
Range: 14
Min/Max: (4, -3)
I have no clue on the next one!
x-intercepts: (.5, 0) (7.5, 0)
y-intercept: (0, 1)
Then I don't know the last two... I'm sorry I couldn't help you out fully!
Answer:
8192
Step-by-step explanation:
In this sequence each term is the product of the two previous terms. Therefore the next term would be the product of 32 and 256.
32 × 256 = 8192
Therefore the final term is 8192.
