chegg Study Guided Solutions LON-CAPA c2-diffeq-31 2000 Https

chegg Study Guided Solutions LON-CAPA c2-diffeq-31 2000 Https://homeworkz Diffeqr dhttps| Hom 0 https://homeworkzmath.pittedu/res/pitt/athanas/c2-diffeq-31 problem?symb-uploaded?2fpitt382 Connor Wilson (Student section: 18259) Iain Menu Contents Grades 2187 18259 MATH 0230 ANALYTIC GEOMETRY Course Contents PROBLEM SET 4 c2-diffeq-31 Determine the solution to the second-order homogeneous initial value differential equation 293′ 901″ J(0) = 2 Y(0) = 0) = -14 11exp(iOx)-36 11exp(9) Submit Answer Incorrect. Tries 1/8 Previous Tries Post Discussion

The Correct Answer and Explanation is:

To solve the second-order homogeneous differential equation given as:y′′+9y=0y” + 9y = 0y′′+9y=0

with initial conditions:y(0)=2,y′(0)=−14y(0) = 2, \quad y'(0) = -14y(0)=2,y′(0)=−14

Step 1: Solve the characteristic equation.

For a second-order linear homogeneous differential equation of the form:y′′+ay′+by=0y” + ay’ + by = 0y′′+ay′+by=0

The characteristic equation is:r2+9=0r^2 + 9 = 0r2+9=0

Solving for rrr, we get:r=±3ir = \pm 3ir=±3i

Thus, the general solution of the differential equation is:y(t)=C1cos⁡(3t)+C2sin⁡(3t)y(t) = C_1 \cos(3t) + C_2 \sin(3t)y(t)=C1​cos(3t)+C2​sin(3t)

where C1C_1C1​ and C2C_2C2​ are constants to be determined by the initial conditions.

Step 2: Apply the initial conditions.

We are given that:y(0)=2andy′(0)=−14y(0) = 2 \quad \text{and} \quad y'(0) = -14y(0)=2andy′(0)=−14

First, evaluate y(0)y(0)y(0):y(0)=C1cos⁡(0)+C2sin⁡(0)=C1y(0) = C_1 \cos(0) + C_2 \sin(0) = C_1y(0)=C1​cos(0)+C2​sin(0)=C1​

So, C1=2C_1 = 2C1​=2.

Next, find y′(t)y'(t)y′(t):y′(t)=−3C1sin⁡(3t)+3C2cos⁡(3t)y'(t) = -3C_1 \sin(3t) + 3C_2 \cos(3t)y′(t)=−3C1​sin(3t)+3C2​cos(3t)

Now, evaluate y′(0)y'(0)y′(0):y′(0)=−3C1sin⁡(0)+3C2cos⁡(0)=3C2y'(0) = -3C_1 \sin(0) + 3C_2 \cos(0) = 3C_2y′(0)=−3C1​sin(0)+3C2​cos(0)=3C2​

We are given that y′(0)=−14y'(0) = -14y′(0)=−14, so:3C2=−143C_2 = -143C2​=−14

Thus, C2=−143C_2 = -\frac{14}{3}C2​=−314​.

Step 3: Write the solution.

Now that we have C1=2C_1 = 2C1​=2 and C2=−143C_2 = -\frac{14}{3}C2​=−314​, the solution to the differential equation is:y(t)=2cos⁡(3t)−143sin⁡(3t)y(t) = 2 \cos(3t) – \frac{14}{3} \sin(3t)y(t)=2cos(3t)−314​sin(3t)

Step 4: Verify the solution.

Finally, verify the solution by checking the initial conditions:

• y(0)=2y(0) = 2y(0)=2, which matches the given initial condition.
• y′(0)=−14y'(0) = -14y′(0)=−14, which also matches the given initial condition.

Thus, the solution is correct. The correct answer is:y(t)=2cos⁡(3t)−143sin⁡(3t)y(t) = 2 \cos(3t) – \frac{14}{3} \sin(3t)y(t)=2cos(3t)−314​sin(3t)