Answer:
Option C
Step-by-step explanation:
Vertical assymptote occurs where the denominator gives a value of zero with the requirement that the numerator must not be zero.
Now, we are given the function ;
f(x) = 8(x - 1)²/(x - 8)²
For denominator to be zero, then;
(x - 8)² = 0
Thus, x = 8 for denominator to be zero.
Since denominator is zero, it means f(x) approaches infinity at x = 8
Everything has been explained in there
The first fish has an integer of -4 and the other fish has an integer of -3.
-3 is greater because -4 is one less of -3. If you put it on a line then -3 is closer to the 0 then -4.
Answer: 5, 3, 1, 2, 6, 4
<u>Step-by-step explanation:</u>
The proof should be written as follows (which is a different order than provided):
<u>Statement </u> <u>Reason </u>
1. ABCD is a parallelogram 1. Given
2. AB||DC and AD||BC and AB ≅ DC 2. Definition of parallelogram
3. ∠ABD ≅ ∠CDB 3. Alternate Interior Angles Theorem
4. ∠DEC ≅ ∠BEA 4. Vertical Angles Theorem
5. ΔABE ≅ ΔCDE 5. AAS Congruency Theorem
6. AE = CE and BE = DE 6. CPCTC
This is the order provided in your question:
5. ΔABE ≅ ΔCDE 5. AAS Congruency Theorem
3. ∠ABD ≅ ∠CDB 3. Alternate Interior Angles Theorem
1. ABCD is a parallelogram 1. Given
2. AB||DC and AD||BC and AB ≅ DC 2. Definition of parallelogram
6. AE = CE and BE = DE 6. CPCTC
4. ∠DEC ≅ ∠BEA 4. Vertical Angles Theorem
