Answer:
See below.
Step-by-step explanation:
1. m=2
2. m=-3
3. m=5
4. m=1
CAHF
-hope it helps
The correct to the question above would be high. If Sue and Kiana are counting the number of computers that they had repaired every day for 2 weeks and if their manager also made a line plot from these data, it would be a high degree of over of the two data sets' distributions.
Answer:
No, images are not same as their dimensions are different although two sides in each of the two triangles are equal.
Step-by-step explanation:
Given: images of two isosceles triangles.
To check: if images are the same
Solution:
A triangle is a polygon made up of three sides.
An isosceles triangle is a triangle in which two sides are equal. Also, in an isosceles triangle, angles opposite to equal sides are equal.
The given images of two isosceles triangles A and B are not the same as their dimensions are different although two sides in each of the two triangles are equal.
BG ≅ AG
BG is the perpendicular to the side of the triangle while AG is the angle bisector , So BG cannot equal AG , So BG cannot be congruent to AG. Hence first is false.
DG ≅ FG
DG And FG both are the perpendicular to the sides from the incentre of the circle , Hence DG and FG are congruent , So second statement is true.
DG ≅ BG
Again DG and BG both are the perpendicular to the sides from the incentre of the circle , Hence DG and BG are congruent , So third statement is true.
GE bisects ∠DEF
As said in the question GE is the angle bisector , So yes GE bisects ∠DEF.
This Statement is true.
GA bisects ∠BAF
Again As said in the question GA is the angle bisector , So yes GA bisects ∠BAF.
Hence 2nd, 3rd , 4th , and 5th options are correct.
Answer:
yes
Step-by-step explanation:
Solving the 2 equations to find the point of intersection
y = 3x - 1 → (1)
y = - x + 3 → (2)
Since both equations express y in terms of x, equate the right sides
3x - 1 = - x + 3 ( add x to both sides )
4x - 1 = 3 ( add 1 to both sides )
4x = 4 ( divide both sides by 4 )
x = 1
Substitute x = 1 into either of the 2 equations for corresponding value of y
Substituting x = 1 in (2)
y = - 1 + 3 = 2
Thus (1, 2) is the point of intersection
