Author Topic: Q5 TUT 0501  (Read 7798 times)

Victor Ivrii

  • Administrator
  • Elder Member
  • *****
  • Posts: 2607
  • Karma: 0
    • View Profile
    • Personal website of Victor Ivrii
Q5 TUT 0501
« on: November 18, 2018, 04:21:35 AM »
It looks like I missed it

Transform the given system into a single equation of second order and find the solution $(x_1(t),x_2(t))$, satisfying initial conditions
$$\left\{\begin{aligned}
& x'_1= -0.5x_1 + 2x_2, &&x_1(0) = -2,\\
&x'_2= -2x_1 - 0.5x_2, &&x_2(0) = 2
\end{aligned}\right.$$

Michael Poon

  • Full Member
  • ***
  • Posts: 23
  • Karma: 10
  • Physics and Astronomy Specialist '21
    • View Profile
Re: Q5 TUT 0501
« Reply #1 on: November 18, 2018, 09:16:18 AM »
Isolate the first equation for $x_2$:

$x_2 = 0.5x_1' + 0.25x_1$

Differentiating both sides we get:

$x_2' = 0.5x_1'' + 0.25x_1'$

Subbing in the above into the second equation:

$x_1'' + x_1 + 4.25x_1 = 0$

Solving for the characteristing eqn gives us:

$r = -0.5 \pm 2i$

So, we now know :

$x_1 = e^{-0.5t}(c_1cos(2t) + c_2sin(2t))$

Subbing the above and its derivative into eqn 2:

$x_2 = e^{-0.5t}(c_1(0.125)\cos(2t) + c_2(1.125)\sin(2t))$

By initial conditions:

$-2 = c_1$

$2 = 0.125c_2$

Final solution:

$x_1 = e^{-0.5t}(-2\cos(2t) + 16\sin(2t))$

$x_2 = e^{-0.5t}(-0.5\cos(2t) + 10\sin(2t))$
« Last Edit: November 18, 2018, 09:21:05 AM by Michael Poon »

Xu Zihan

  • Jr. Member
  • **
  • Posts: 7
  • Karma: 4
    • View Profile
Re: Q5 TUT 0501
« Reply #2 on: November 18, 2018, 07:15:42 PM »
For Michael Poon's answer,
after the substitution,

𝑥2 should equal to 𝑒−0.5𝑡(-𝑐1cos(2𝑡)+𝑐2sin(2𝑡))

And C1=-2   C2=2

So the final solution will be:

𝑥1=𝑒−0.5𝑡(−2cos(2𝑡)+2sin(2𝑡))

𝑥2=𝑒−0.5𝑡(2cos(2𝑡)+2sin(2𝑡))
« Last Edit: November 18, 2018, 07:17:14 PM by Xu Zihan »

Guanyao Liang

  • Jr. Member
  • **
  • Posts: 13
  • Karma: 12
    • View Profile
Re: Q5 TUT 0501
« Reply #3 on: November 18, 2018, 08:30:26 PM »
I think Michael's x2 is wrong. I also think c1 =-2 and c2 =2 same answer with Zihan.

Yunqi(Yuki) Huang

  • Jr. Member
  • **
  • Posts: 11
  • Karma: 5
    • View Profile
Re: Q5 TUT 0501
« Reply #4 on: November 19, 2018, 11:20:47 PM »
Isolate the first equation for$ x_2:x_2=0.5x′_1+0.25x_1 (1)$
Differentiating both sides we get$x′_2=0.5x″_1+0.25x′_1(2)$
Substitute (1) and (2) in the above into the second equation$x″_1+x_1+4.25x_1=0(3)$
Solving (3):r=−0.5±2i
So, we now know $x_1=e^{-0.5t}(c_1cos(2t)+c_2sin(2t))$ and $x2=e^{−0.5t}(-c_1sin(2𝑡)+c_2cos(2𝑡))$
By initial conditions:$c_1 = -2$ and $c_2=2$
Final solution:$x_1=e^{-0.5t}(−2cos(2𝑡)+2sin(2𝑡))$ and $x_2=e^{-0.5t}(2cos(2𝑡)+2sin(2𝑡))$

Mengfan Zhu

  • Jr. Member
  • **
  • Posts: 10
  • Karma: 5
    • View Profile
Re: Q5 TUT 0501
« Reply #5 on: November 20, 2018, 01:09:08 AM »
This is my complete answer.
It is much easier to simplify the two equations into the common format first.