Answer:
see attachment for proof
Step-by-step explanation:
See attachment for step-by-step. I've also attached proof of the trig identity I used.
Sequences are based off of the directions, if it is least to greatest it is the smallest number, if you can't figure it out it is the farthest on the left of a number line the the farthest on the tight. If it is greatest to least, it is the biggest number first and the smallest last, if you can't figure that out it is the farthest on the right to the farthest on the left.
1. It is adding 5 each time so the next two are 31,36
2. Same thing 28,33
All you have to do is find the sequence I between them. Hope this helps!
Answer:
Shane could have collected more than 911 Cans
Step-by-step explanation:
We are asked to write an inequality to find the number of cans, S that Shane could have collected:
Cans collected by Shane and Abha > 2000
S + A > 2000
Abha collected 178 more cans than Shane did.
A = 178 + S
Put value of A in the above inequality
S + 178 + S > 2000
2S + 178 > 2000
2S > 2000 - 178
2S > 1822
S > 911
When u=-2, put that in where you see "u". use parentheses.
-4(-2)+4x=12
-4*-2=8 ➡positive 8 since a negative times a negative is always positive
一一一一一
now look for x
8+4x=12
subtract 8 from both sides. get x by itself.
-8+8+4x=12-8
4x=4➡ divide both sides by 4. a number divided by itself is 1 (unless one side is negative, then the answer is negative)
4/4=1
一一一一一
x=1
