The Laplace Transform of the differential equation $$ \frac{d x(t)}{d t}+x(t)=3 $$, given that $$ x(0)=1 $$, is: $$ \begin{array}{lll} ext { (A) } X(s)=\frac{4}{s+1} & ext { (B) } X(s)=\frac{s+3}{s+1} & ext { (C) } X(s)=\frac{s+3}{s(s+1)} \ ext { (D) } X(s)=\frac{2}{s+1} & ext { (E) } X(s)=\frac{3}{s(s+1)} & ext { (F) } X(s)=\frac{3}{s}\end{array} $$

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The Laplace Transform of the differential equation $$ \frac{d x(t)}{d t}+x(t)=3 $$, given that $$ x(0)=1 $$, is: $$ \begin{array}{lll}	ext { (A) } X(s)=\frac{4}{s+1} & 	ext { (B) } X(s)=\frac{s+3}{s+1} & 	ext { (C) } X(s)=\frac{s+3}{s(s+1)} \ 	ext { (D) } X(s)=\frac{2}{s+1} & 	ext { (E) } X(s)=\frac{3}{s(s+1)} & 	ext { (F) } X(s)=\frac{3}{s}\end{array} $$

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To find the Laplace Transform of the given differential equation $$ \frac{d x(t)}{d t} + x(t) = 3 $$ with the initial condition $$ x(0) = 1 $$, we will follow these steps:

1. **Take the Laplace Transform of both sides of the equation.**
2. **Use the properties of the Laplace Transform, particularly for derivatives.**
3. **Substitute the initial condition.**
4. **Solve for $$ X(s) $$.**

### Step 1: Apply the Laplace Transform

The Laplace Transform of $$ \frac{d x(t)}{d t} $$ is given by:
$$
\mathcal{L}\left\{\frac{d x(t)}{d t}\right\} = sX(s) - x(0)
$$
where $$ X(s) $$ is the Laplace Transform of $$ x(t) $$.

### Step 2: Transform the Equation

Applying the Laplace Transform to the entire equation:
$$
\mathcal{L}\left\{\frac{d x(t)}{d t} + x(t)\right\} = \mathcal{L}\{3\}
$$
This gives us:
$$
sX(s) - x(0) + X(s) = \frac{3}{s}
$$

### Step 3: Substitute the Initial Condition

Substituting $$ x(0) = 1 $$:
$$
sX(s) - 1 + X(s) = \frac{3}{s}
$$
Combining terms:
$$
(s + 1)X(s) - 1 = \frac{3}{s}
$$

### Step 4: Solve for $$ X(s) $$

Now, we can isolate $$ X(s) $$:
$$
(s + 1)X(s) = \frac{3}{s} + 1
$$
$$
(s + 1)X(s) = \frac{3 + s}{s}
$$
Now, divide both sides by $$ s + 1 $$:
$$
X(s) = \frac{3 + s}{s(s + 1)}
$$

### Conclusion

Thus, the Laplace Transform of the given differential equation is:
$$
X(s) = \frac{s + 3}{s(s + 1)}
$$

The correct answer is **(C) $$ X(s) = \frac{s + 3}{s(s + 1)} $$**.
$$ X(s) = \frac{s + 3}{s(s + 1)} $$, choice C.

The Laplace Transform of the differential equation ,
given that , is:

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