So we have v(w) = 2w - 1
Now we make the following change: w ---> w +3.
So we change every "w" into a "w+3" as follows:
v(w) = 2w - 1 --------> v(w+3) = 2*(w+3) - 1
Let's solve this.
2*(w+3) - 1
2*w + 2*3 - 1
2w + 6 - 1
2w + 5
So
v(w+3) = 2w + 5
2^10 is equal to 1024 (one thousand and twenty four)
Answer:
This would be the last option I think, sorry if it's wrong.
Step-by-step explanation:
<span>This one is hard to explain in print. Let x be the side of the rectangle on the hypotenuse and y be the other side. There is a triangle formed at the right angle of the original which is similar to the original.
So x is to 10 as z is to 8: x/10 = z/8
and z = 4/5 x
The upper part of that leg would be 8 - 4/5 x
The triangle at the top is also similar:
So y is to 6 as (8 - 4/5 x) is to 10: y/6 = (8-4/5 x)/10
and y = 3/5 (8- 4/5 x) = 24/5 - 12/25 x
Now area = xy
Deriv = 0 and solve </span>
Answer:
me tooooo!
Step-by-step explanation: