Answer:
As x → ∞, f(x) → ∞
As x → -∞, f(x) → 3
Step-by-step explanation:
This question is asking for the end behavior of the graph. In this case, as x increases f(x) also increases; therefore, they both approach positive infinity at the same time. Additionally, the horizontal asymptote of the graph is 3. This means that as x approaches -∞, f(x) will approach the asymptote, 3.
For the 1st problem, solve the 2nd equation for x.
x = -1 - y
Now, replace x in the 1st equation with (-1 - y)
2(-1 - y) - 3y = 2
-2 - 2y - 3y = 2
-2 - 5y = 2
-5y = 4
y = -4/5
x = -1 - (-4/5) = -1 + (4/5) = -1/5
The solution is (-1/5, -4/5)
For the 2nd problem, multiply the top equation by 15 and the bottom equation by -12. That gives us:
10x - 12y = 15
-36x +12y = 84
Add the two together, which gives us:
-26x = 99
x = -99/26
Now, put this value of x into either equation to solve for y
3(-99/26) - y = -7
-297/26 - y = -7
-y = -7 + 297/26
-y = 115/26
y = -115/26
The solution to this system is (-99/26, -115/26)
His weight doesn't depend on the area of his contact with the scale.
If it did, then we would see differences in our weight when we wear tennis shoes,
fancy shoes, snow boots, socks, and flip-flops. What really happens is that any
difference we see is only the difference in the weight of whatever we're wearing on
our feet. It has nothing to do with how much of the scale our feet cover.
It doesn't matter whether you stand on the scale with both feet, one foot, or
on tippy toes, on one finger, or on your head. Your weight reads the same.
Average percentage =(425000-25000)/(30-0)
Average percentage= 13,333.3
Use formula [f(b)-f(a)]/(b-a)
Answer:
The area of the triangle is 
Step-by-step explanation:
we know that
The area of a triangle is equal to
where
b is the base of triangle
h is the height of triangle
we have
substitute in the formula
