Answer:
25
Step-by-step explanation:
2^4 + 3^2
Do the exponents first
16 + 9
Then we add
25
To start off, the wording of this question is pretty technical. Let's reword the question to make it a bit easier to understand.
From the open interval from -2 to 5 (meaning between but not including those integers), list every integer for x at which x approaches a defined y point on the curve, regardless of whether it actually takes that y value at that point.
Let's start with the first eligible integer, -1.
The limit, from both sides, as x approaches -1 is y=-1.
However, y = -2 at this point.
At 0, x continuous and defined on the curve where you would expect it, and therefore the limit at x=0 is its y value at that point, 0.
x=1 is not eligible, because its left-side limit (when approaching from the left) and right-side limit (when approaching from the right), are distinct.
x=2 has a clear defined limit. It is continuous and defined at that point. The limit looks to be around y= 1.8
x=3 does not feature a clearly defined, finite value, since the limit at x=3 is
-∞
x=4, like x=0 and x=2, has a clear and finite limit, since it is continuous at that point.
Answers are x=-1, x=0, x=2, and x=4
or
{-1, 0, 2, 4}
Answer:
The answer is 15 units hope that helps
Step-by-step explanation:
Apply pythagorean formulae here
Take the 17 as hypotenuse... And 8 as the base....
So the pythagorean formulae is
( hypotenuse) Square = (height) Square + (base) Square......
Hence put the values and the height comes as 15 units
BTW are u Indian?...
Answer and Step-by-step explanation:
1. Figure A, B, and C are Parallelograms
2. Figure A and C are Rectangles
3. Figure A is a Square
<em><u>#teamtrees #PAW (Plant And Water)</u></em>
