Not all organisms have the ability to maintain a constant internal temperature. Cold-blooded organisms like reptiles and amphibians need external sources like the sun to help them maintain a healthy temperature.
The term that best describes the relatively constant internal physical conditions of an organism is "homeostasis." Homeostasis refers to the processes and mechanisms that organisms use to maintain stable internal environments, such as temperature, pH, and electrolyte balance, despite external changes. This regulation is crucial for the proper functioning and survival of living organisms.
The process by which organ systems maintain relatively constant internal conditions is called homeostasis. Homeostasis involves various physiological mechanisms that regulate factors such as temperature, pH, and electrolyte balance to ensure optimal functioning of the body. This regulation allows organisms to adapt to changes in their environment and maintain stable conditions despite external fluctuations.
The term that describes the relatively constant internal physical conditions of an organism is "homeostasis." This process involves the regulation of various factors, such as temperature, pH, and electrolyte balance, to maintain a stable internal environment despite external changes. Homeostasis is crucial for the proper functioning and survival of living organisms.
It is called homeostasis (internal environment maintained at a constant level) or thermostasis (internal heat maintained at a constant temperature). The overall name for the processes by which temperature is controlled is thermoregulation.
Maintaining a relatively constant internal body temperature is an example of homeostasis. Homeostasis refers to the processes by which biological systems regulate their internal environment to maintain stable, constant conditions despite external changes. This regulation is crucial for optimal functioning of enzymes and metabolic processes within the body.
homeostasis
Homestatasis is a relatively constant internal physical and chemical conditions that organisms maintain. It is a branch of biology in science.
Homeostasis is the maintenance of a constant internal environment in organisms even when there are external changes. For example, the body is able to maintain its same temperature of 98.6 even when it is really cold.
Thermoregulation means maintenance of a stable temperature in the body.
Animals that maintain a constant body temperature are called "endotherms." This means they can regulate their internal body temperature regardless of the external environment. This ability allows them to thrive in a variety of habitats and climates.
The term that best describes the relatively constant internal physical conditions of an organism is "homeostasis." Homeostasis refers to the processes and mechanisms that organisms use to maintain stable internal environments, such as temperature, pH, and electrolyte balance, despite external changes. This regulation is crucial for the proper functioning and survival of living organisms.
Homeostasis is the regulation of internal biochemistry to maintain a constant internal environment. Without this constant regulation, living organisms would be unable to function. Therefore, homeostasis is the regulation of the internal environment of the body, and also the maintenance of this constant environment. Hope this helps!
endotherms are mammals like you and me who produce their own body heat and maintain a constant internal condition. Ectotherms are animals whose internal temperature is greatly influenced by its own environment.
A mammal's ability to maintain it's internal body temperature is an example of homeostasis. Without the ability to maintain a constant internal temperature, animals would quickly die.
A endothermic maintain a nearly constant internal body temperature regardless of the temperature of their environment. These animals are called warm- blooded animals.
No. A spider has no mechanism to maintain its body temperature.
Poikilothermic organisms, also known as ectotherms, are those whose body temperature varies with the environment, such as reptiles, amphibians, and fish. In contrast, endothermic organisms, or warm-blooded animals, maintain a constant internal body temperature regardless of external conditions, which includes birds and mammals. Therefore, poikilothermic and endothermic organisms belong to different physiological categories and do not overlap.