Is Sweating an example of negative feedback?

High body temperature may stimulate the temperature regulatory center of the brain to activate the sweat glands to bring the body temperature down. When body temperature reaches normal range, it acts as negative feedback to stop the process.

Is sweating positive feedback or negative?

Another example of negative feedback occurs when your body’s temperature begins to rise and a negative feedback response works to counteract and stop the rise in temperature. Sweating is a good example of negative feedback.

What are examples of negative feedback?

Examples of processes that utilise negative feedback loops include homeostatic systems, such as:

  • Thermoregulation (if body temperature changes, mechanisms are induced to restore normal levels)
  • Blood sugar regulation (insulin lowers blood glucose when levels are high ; glucagon raises blood glucose when levels are low)

How is sweating related to negative feedback?

Negative feedback – example

If the hypothalamus detects that the body is too hot, the response is that the body begins to sweat to try and reduce the temperature back to the correct level. Once the body temperature is back to the correct level, sweating will stop.

Is shivering a negative feedback?

Body temperature control is a negative feedback system that occurs in the body. If the body temperature rises or falls, the response of shivering or sweating will reverse the change that has occurred.

What are examples of positive and negative feedback?

Some examples of positive feedback are contractions in child birth and the ripening of fruit; negative feedback examples include the regulation of blood glucose levels and osmoregulation.

Is sweating an example of homeostasis?

Answer and Explanation: Sweating is an example of homeostasis because it helps maintain a set point temperature.

Is sneezing a positive or negative feedback?

Other examples of positive feedback loops include sneezing, vomiting, and blood clotting. 6 Negative feedback loops trigger processes that prevent small changes from getting larger. Most animal homeostatic systems are negative feedback loops.