Sebaceous glands
Temperature control is regarded as an example of negative feedback because it is used in homeostasis.
They work a bit like a thermostat that keeps a constant temperature in a house. Negative feedback loops work through receptors, which sense a change such as in blood pressure. Signals are then sent to the control centres, usually in the brain, which then give instructions to the effectors - mechanisms which then regulate conditions such as blood pressure and bring it back to normal
The three features that an animal needs to control their body temperature include the skin, blood circulation system and effectors. All these coordinate so that an animal will adjust in accordance to the temperature it requires.
Positive feedback accelerates the clotting process, but temperature would rise out of control.
Motor Neurons
homeostasis The temperature of the body is regulated by neural feedback mechanisms which operate primarily through the hypothalmus. The hypothalmus contains not only the control mechanisms, but also the key temperature sensors
you will die
in homeostasis an antagonistic effector is what brings about the response to the change in environment in order to keep your internal environment the same. for exampe if the core body temperature is too low the antagonistic effector is what increases your body temperature.
difference between feedback and control
Homeostasis: refers to the constant internal temperature mantained for all the cells of the body.a homeostatic mechanism and a negative feedback system
It transmit electrical signals from sensory receptors and to effectors which control their activity.
homeostasis The temperature of the body is regulated by neural feedback mechanisms which operate primarily through the hypothalmus. The hypothalmus contains not only the control mechanisms, but also the key temperature sensors