A) Connecting multiple control systems together
B) Turning off the system power
C) Using manual controls
D) Process where the output of a system is returned to the input to regulate the system

A) Control system with automatic feedback
B) Control system with multiple inputs
C) Control system with manual feedback
D) Control system without feedback

A) Stability
B) Responsiveness
C) Sensitivity
D) Accuracy

A) To measure and provide feedback on system parameters
B) To process mathematical calculations
C) To generate control signals
D) To regulate power supply

A) To generate random numbers
B) To convert analog signals to digital signals
C) To analyze and solve differential equations in the frequency domain
D) To measure signal amplitude

A) Noise in system signals
B) Output oscillations at high frequencies
C) Sudden changes in system behavior
D) Delay or lag in a system's response to changes in input

A) The power consumption of the system
B) The system's ability to respond quickly
C) The accuracy of the system's sensors
D) The ability of a system to maintain performance in the presence of uncertainties or disturbances

A) Time taken for the system to start up
B) Time taken for the system to stabilize
C) Time taken for the system output to reach and remain within a specified range of the desired value
D) Time taken for the system to respond to a disturbance