Consider a system governed by the following equations$\frac{{d{x_1}\left( t \right)}}{{dt}} = {x_2}\left( t \right) - {x_1}\left( t \right)$$\frac{{d{x_2}\left( t \right)}}{{dt}} = {x_1}\left( t \right) - {x_2}\left( t \right)$The initial conditions are such that ${x_1}\left( 0 \right)

Question

Consider a system governed by the following equations$\frac{{d{x_1}\left( t \right)}}{{dt}} = {x_2}\left( t \right) - {x_1}\left( t \right)$$\frac{{d{x_2}\left( t \right)}}{{dt}} = {x_1}\left( t \right) - {x_2}\left( t \right)$The initial conditions are such that ${x_1}\left( 0 \right) < {x_2}\left( 0 \right) < \;\infty .$ Let ${x_{1f}} = \mathop {\lim }\limits_{t \to \infty } {x_1}\left( t \right)$ and ${x_{2f}} = \mathop {\lim }\limits_{t \to \infty } {x_2}\left( t \right)$. Which one of the following is true?

TuteeHUB · Accepted Answer

${x_{1f}} = {x_{2f}} = \infty$

TuteeHUB · Answer

${x_{1f}} < {x_{2f}} < \infty$

TuteeHUB · Answer

${x_{2f}} < {x_{1f}} < \infty$

TuteeHUB · Answer

${x_{1f}} = \;{x_{2f}} < \infty$

1.	Consider a system governed by the following equations\(\frac{{d{x_1}\left( t \right)}}{{dt}} = {x_2}\left( t \right) - {x_1}\left( t \right)\)\(\frac{{d{x_2}\left( t \right)}}{{dt}} = {x_1}\left( t \right) - {x_2}\left( t \right)\)The initial conditions are such that \({x_1}\left( 0 \right) < {x_2}\left( 0 \right) < \;\infty .\) Let \({x_{1f}} = \mathop {\lim }\limits_{t \to \infty } {x_1}\left( t \right)\) and \({x_{2f}} = \mathop {\lim }\limits_{t \to \infty } {x_2}\left( t \right)\). Which one of the following is true?
A.	\({x_{1f}} < {x_{2f}} < \infty\)
B.	\({x_{2f}} < {x_{1f}} < \infty\)
C.	\({x_{1f}} = \;{x_{2f}} < \infty\)
D.	\({x_{1f}} = {x_{2f}} = \infty\)
Answer» D. \({x_{1f}} = {x_{2f}} = \infty\)

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