S Recall that: • If a closed-loop (CL) system is stable, then one may increase the gain (by up to a certain amount) and still maintain CL stability. . On the other hand, if the CL system in unstable, then one may decrease the gain (by up to a certain amount) and still have CL instability. You find that the gain margin of a nominal loop transfer function (with no right-half plane open-loop pole) to be -40 dB. Now answer the following: 1) The closed-loop system is unstable 2) One may increase (or, decrease) the gain up to CL stability (or, instability). [Select] [Select] 20 10 100 and still have NOTE: The second part is dependent on your answer to the first part, i.e., ● If you answered "stable" to part-1, you will read part-2 as "increase the gain by up to X and still have CL stability". . If you answered "unstable" to part-1, you will read part-2 as "decrease the gain by up to X and still have CL instability".

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S Recall that: • If a closed-loop (CL) system is stable, then one may increase the gain (by up to a certain amount) and still maintain CL stability. . On the other hand, if the CL system in unstable, then one may decrease the gain (by up to a certain amount) and still have CL instability. You find that the gain margin of a nominal loop transfer function (with no right-half plane open-loop pole) to be -40 dB. Now answer the following: 1) The closed-loop system is unstable 2) One may increase (or, decrease) the gain up to CL stability (or, instability). [Select] [Select] 20 10 100 W and still have NOTE: The second part is dependent on your answer to the first part, i.e., ● If you answered "stable" to part-1, you will read part-2 as "increase the gain by up to X and still have CL stability". If you answered "unstable" to part-1, you will read part-2 as "decrease the gain by up to X and still have CL instability".