As the name suggests, you feed back/put back something into the system. Feed-back systems generally have at least one input which is the also output of the system. It is used in systems where the past state of the system has some control over the present state as well.
There are many examples of such a system , most famous being that of an operational amplifier which is an electronic component.
YES, + feedback systems enhance or intensify the stimulus. Eg. of a + feedback system = childbirth
Thermoregulation relies on negative feedback. Negative feedback works to return a system to homeostasis by reducing a stimulus, such as a change in temperature. By contrast, positive feedback systems amplify or speed up a response.
A negative feedback system is what occurs most commonly in your body systems. These keep everything in a homeostatic state.
no
example of negative feedback example of negative feedback
Yes, all systems should have feedback
Yaakov Yavin has written: 'Feedback strategies for partially observable stochastic systems' -- subject(s): Feedback control systems, Stochastic systems
The nervous system and the immune system are responsive to feedback
There are two types of feedback mechanisms: positive feedback, which amplifies processes, and negative feedback, which stabilizes systems. For More Information : agilityportal.io
feedback loops maintain balance and homeostasis.
Positive feedback in economic systems can cause boom-then-bust cycles. A familiar example of positive feedback is the loud squealing or howling sound.
i think it is feedback
Jason J. Gorman has written: 'Feedback control of MEMS to atoms' -- subject(s): Feedback control systems, Microelectromechanical systems, Microelectronics
YES, + feedback systems enhance or intensify the stimulus. Eg. of a + feedback system = childbirth
John VandeVegte has written: 'The interaction problem in multivariable feedback control systems as related to shaft balancing' -- subject(s): Feedback control systems, Rotors
both negative and positive feedback
Thermoregulation relies on negative feedback. Negative feedback works to return a system to homeostasis by reducing a stimulus, such as a change in temperature. By contrast, positive feedback systems amplify or speed up a response.