Solve Calc Problem: Find y if dy/dt=ky and k is a Nonzero Constant

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To solve the differential equation dy/dt = ky, where k is a nonzero constant, the general solution involves integrating to find y = Ce^(kt), where C is the constant of integration. The user initially believed the answer was b (2e^(kt)), but realized they overlooked the constant of integration. The correct form includes a constant, which can be represented as C1, leading to multiple valid solutions depending on initial conditions. A typo in the answer choices was also acknowledged, confirming that choice c should be e^(kt) + 3. Understanding the role of the constant of integration is crucial for identifying the correct solution.
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We have a set of problems for hw. I am stuck on 1 where I know the answer but can't seem to get it.

If dy/dt=ky and k is a nonzero constant then y could be
a. 2e^kty b. 2e^kt c. e^kt d. kty+5 e. 1/2ky^2 +1/2

I know the answer is b but i can't get that answer
Here is my work
S=integral sign

dy/dt=ky
dy/y=kdt
Sdy/y=kSdt
lny=kt
e^lny=e^kt
y=e^kt

How do u get a 2 in there for choice b
 
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You forgot about the constant of integration:
\frac{dy}{dt}=ky
\frac{dy}y=kdt
\int{\frac{dy}y} = \int{kdt}
\ln y = kt +C
e^{\ln y} = e^{kt + C}
y = e^{kt}\cdot e^C
eC is also a constant, so it can be written as C1 if you like.The value of C1 will depend on the initial conditions. Unless there's a typo in your answer list, I can see two answers that are of this form:
b. y=2e^{kt}
and c. y = e^{kt}

I hope that helps.
 
thanks forgot the C and yea choice c was a typo it should be e^kt +3
 

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