I think D is your answer, but it's a strange way to write it. It just means
y+5 = sqrt(1) * sqrt(x^2+1)
Separation of variables here is rather easy, since you have
dy/dx = x(y+5)/(x^2+1) -- just divide by (y+5) and multiply by dx.
visit wolframalpha . com and type in
solve dy/dx = (yx + 5x) / (x^2 + 1), y(3)=5
it will solve the DE and if you click the Show Steps button, it will show how to separate the variables and all.
Using separation of variables technique, solve the following differential equation with initial condition dy/dx = (yx + 5x) / (x^2 + 1) and y(3) = 5. The solution is:
a.) y^2 = ln(x^2 + 1) + 25 - ln10
b.) ln(abs(y+5)) = ln(x^2 + 1)
c.) ln(abs(y+5)) = arctan3 + ln10 - arctan3
d.) ln(abs(y+5)) = (1/2)ln(x^2 + 1) + (1/2)ln10
e.) y = ln(x^2 + 1) + 50 - ln10
Based on the initial condition y(3)=5, I know that e cannot be correct. However, I don't know where to start or how to work this out. My main problem is figuring out how to separate the variables.
2 answers
x(y+5) dx = (x^2+1) dy
x dx/(x^2+1) = dy/(y+5)
(1/2)ln(x^2+1) =
ln(y+5)+ c
if x = 3, y = 5
(1/2) ln 10 = ln 10 + c
c = -(1/2) ln 10
(1/2) ln(x^2 + 1) = ln(y+5) -(1/2) ln 10
(1/2) ln 10(x^2+1) = ln(y+5)
ln 10(x^2+1) = ln(y+5)^2
10(x^2+1) = (y+5)^2
x dx/(x^2+1) = dy/(y+5)
(1/2)ln(x^2+1) =
ln(y+5)+ c
if x = 3, y = 5
(1/2) ln 10 = ln 10 + c
c = -(1/2) ln 10
(1/2) ln(x^2 + 1) = ln(y+5) -(1/2) ln 10
(1/2) ln 10(x^2+1) = ln(y+5)
ln 10(x^2+1) = ln(y+5)^2
10(x^2+1) = (y+5)^2
3 answers