In humans, the activities of our cells use energy and produce heat as an effect (kind of like light globes producing heat as well as light). Then that heat is passed into the environment by our wastes etc. (they're hot), or it just radiating off (eg. when you can feel the heat of another body, they're losing heat!).
When we get cold, we can also shiver. The reason for this is that the increased amount of contractions of the muscles (cells) also increases the heat produced in the method mentioned at the start of this (very long) answer (haha).
The same applies for when we exercise: More cell activity=more heat.
We can also gain heat through the sun, or anything else that feels hot. That means that when you feel heat, that heat is passing into your body. It also works in reverse: When you feel something cold, it's taking heat from you.
Hope I helped :) I do (yr 11) human Biology and physics :p
Mammals are warmblooded. they rely on the process of metabolism to get energy that can be used for various purposes.
The energy you get from the food allows you to heat up and the water you drink makes you cool down
Through shivering, to keep in heat, goose bumps, and sweating, etc
There are hot baths in Iceland where the water temperature is at our body temperature or slightly higher. If you take a bath in water at these temperatures your body will not lose heat to the bath water. At temperatures lower than body temperature it will.
They have lots of fat.
equilibrium relates to the body systems becuase, the body has to maintain homeostasis. Which means that equilibrium has reached in your body.
The body temperadure is measured usually in Celsius degrees; but you can use any scale of temperatures.
yes. Because same body is at different temperatures when we use different scales of temperature.
Body temperatures vary, even within humans. The body temperatures of mammals range from around 97° to over 103° Fahrenheit. Birds have average temperatures of around 105° Fahrenheit. Average Body Temperatures AnimalFahrenheitCentigradeElephants97.736.5Humans98.637.0Whales98.637.0Bat98.637.0Horse100.438.0Seal100.438.0Baboon100.638.1Rabbits101.038.3Cows101.538.6Dogs102.038.9Cats102.239.0Goats103.439.7Midpoint of extremes100.638.1
moderate temperatures and strong gravity (APEX)
sweat is used to cool down the body
They are cold blooded animals. They don't maintain their own temperature. Their temperature depends upon the temperature of the water they are in.
Homestatasis is a relatively constant internal physical and chemical conditions that organisms maintain. It is a branch of biology in science.
Lower than a humans, yet all plants have different temperatures.
In humans it is normally 98.6 F or 37 C
Bobcats maintain their water balance the same way humans do. Their body undergoes homeostasis in order to keep their body temperature and fluid levels in check.
Yes. Being warm blooded mammals, not cold-blooded reptiles, platypuses do maintain a constant body temperature.
Warm blooded animals (homeotherms) maintain a consistent body temperature. Cold blooded animals (poikilotherms) will have body temperatures that vary with the temperature of their environment. Mammals (including humans) and birds are warm-blooded animals. Reptiles and fish are cold-blooded animals.
Humans are ENDOtherms, NOT ectotherms. Endotherms include birds, mammals, and of course, humans. We maintain homeostasis [internal constancy] in all climates or temperatures. We are warm-blooded, but, unlike ectotherms, which lack internal temperature-regulating mechanisms and have to GO somewhere to either gain or lose heat, such as amphibians, for example, we humans, no matter the external temperature, maintain our constant [98.6] body temperature: we sweat when we're too hot so as to cool down. Behaviorally, we move to a cooler climate. When we're too cold, we usually shiver, which increases body heat. "Goosebumps" are another way the body attempts to hold in warmth, occurring when muscles contract.
Yes it is because by shivering, your body is trying to maintain its body temperature which is in turn its internal homeostasis.