Y intercept slope - 5,0
X intercept slope - 0,-4
Answer:
The given triangle is an obtuse angled triangle.
Step-by-step explanation:
The measures of the given angle are:
∠1 = 17°, ∠2 = 103° and ∠3 = 60°.
OBTUSE ANGLE: The angle whose measure is more than 90° and less than 180° is an obtuse angle.
Now, Here, in the given triangle, ∠2 = 103° is an obtuse angle.
The triangle with a obtuse angle is known as an Obtuse Angled Triangle.
Hence, the given triangle is an obtuse angled triangle.
<h3>
Answer: B) Brookfield</h3>
For each location, divide the number of hamsters over the number of gerbils.
Brookfield would have a ratio of 28/10 = 2.8
Belmont would have the ratio of 27/13 = 2.077 approximately
We see that Brookfield has the higher ratio.
Answer:
The statement is true
Step-by-step explanation:
we know that
In a Rhombus the diagonals bisect opposite angles.
therefore
diagonal AD bisect angle D and angle A
so
m∠CDA≅m∠BDA
m∠CAD≅m∠BAD
diagonal CB bisect angle C and angle B
so
m∠ACB≅m∠DCB
m∠ABC≅m∠DBC
Answer:
a. 10x + 4; the answer is a polynomial
Step-by-step explanation:
The perimeter of a rectangle is the sum of the lengths of the 4 sides.
The closure property is that if you add polynomials, the sum is a polynomial.
A rectangle has two congruent lengths and two congruent widths.
Since the length of the rectangle is 3x + 5, there is another length of 3x + 5. The width is 2x - 3, so there is a second width of also 2x - 3.
Let's add the 4 sides together:
3x + 5 + 3x + 5 + 2x - 3 + 2x - 3 =
= 3x + 3x + 2x + 2x + 5 + 5 - 3 - 3
= 10x + 4
The perimeter is 10x + 4. Each side length is a polynomial, and the sum of the all the side length is also a polynomial. This shows there is closure for the addition of polynomials.
Answer: a. 10x + 4; the answer is a polynomial
