Question
The Laplace Transform of the differential equation
,
given that
, is:
given that
Ask by Hanson Wright. in Ireland
Mar 12,2025
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To solve the differential equation
using the Laplace Transform, we start by taking the transform of both sides. Using the properties of the Laplace Transform, we get:
Substituting
gives us:
This simplifies to:
Finally, solving for
yields:
Thus, the correct answer is
, which corresponds to option ©.
Many real-world systems can be modeled by differential equations similar to the one you’ve just solved. For instance, in electrical engineering, the dynamics of a circuit with resistors and capacitors can often be described with such equations, where the Laplace Transform helps in analyzing the circuit’s response to different inputs efficiently, reducing complex differential equations into algebraic forms.
When dealing with Laplace Transforms, one common mistake is forgetting the initial conditions. In our case,
was critical in determining
. Without accurately incorporating initial or boundary conditions, the solution can lead to incorrect conclusions, just like attempting to drive without looking at your fuel gauge – you might end up stranded!