I would suggest you plot it using, say GeoGebra. (Very easy to use.) On the left side of the y-axis the graph never falls below y=-1, I think. It climbs indefinitely on the right side. It extends indefinitely to the left, and to the right. But, as I say, if you learn GeoGebra, many problems like these will become much easier.
This is called the Abel-Ruffini theorem.
Y = ex(x + 2) Y = ex/(X + 2) =========
-2x+3+1=-7 -2x=-11 x=11/2
It's algebra. A substitute for number. Ex: "x+y=z" could mean 1+2=3.
it is a part of the fact family ex: 3 + 7 = 10 7 + 3 =10 10 - 7 = 3 10 - 3 = 7
5x plus 4
This is called the Abel-Ruffini theorem.
144 This works if you first add the two digits (ex. 2+3=5), then multiply the first digit by the answer you got (2+5=10).
Y = ex(x + 2) Y = ex/(X + 2) =========
-2x+3+1=-7 -2x=-11 x=11/2
ex+f = c -dx ex+dx = c -f x(e+d) = c -f x = c -f/(e+d)
x=0
In terms of the internet: A domain is a specific 32-bit URL address on the internet usually shown as 4 numbers separated by dots (ex: 70.100.145.175) or as alphanumeric name (ex: www.wikianswers.com). A workstation is one computer within a domain.
That depends on the original relation. For any relation y = f(x) the domain is all acceptable values of x and the range, y, is all answers of the function. The inverse relation would take all y values of the original function, what was the range, and these become the domain for the inverse, these must produce answers which are a new range for this inverse, which must match the original domain. IE: the domain becomes the range and the range becomes the domain. Ex: y = x2 is the original relation the inverse is y = =/- square root x Rules to find the inverse are simple substitute x = y and y = x in the original and solve for the new y. The notation is the original relation if y = f(x) but the inverse is denoted as y = f -1(x), (the -1 is not used as an exponent, but is read as the word inverse)
It's algebra. A substitute for number. Ex: "x+y=z" could mean 1+2=3.
You take the largest # in your group and subtract the smallest number in your group from it. Ex: 1,2,3,4,5,6 You find the range by taking 6 (the largest)-1 (smallest) 6-1=5 so the range would be 5. Oops, I just realized you might mean Range as in Domain and Range. In that case your range is the range of the y values in your equation when you look for the function of x.
e2x + ex = 0e2x = -exe2x / ex = -1ex = -1x = ln(-1)Actually, that's just a restatement of the original problem, but that'sas far as you can go with it, because there's no such thing as the log(or the ln) of a negative number. Your equation has no solution.