"Homoiothermy" Pronounce,Meaning And Examples
"Homoiothermy" Natural Recordings by Native Speakers
"Homoiothermy" Meaning
Homoiothermy refers to the ability of animals, especially mammals and birds, to maintain a relatively constant body temperature, usually close to 98°F (37°C), despite changes in the ambient temperature. This means that they can regulate their body temperature internally, rather than relying on external sources of heat or cold. Homoiothermy is a characteristic unique to endotherms, which includes animals such as humans, and distinguishes them from ectotherms, like reptiles, that rely on external sources of heat to regulate their body temperature.
"Homoiothermy" Examples
Homoiothermy Usage Examples
Example 1: Scientific Context
In biology, homoiothermy refers to the ability of some animals, such as humans, to regulate their body temperature internally, without being influenced by the external environment. ("The human body is a good example of homoiothermy, maintaining a constant temperature despite the temperatures outside.")Example 2: Comparative Sentence
While heterothermy, the ability to regulate body temperature externally, is common in insects, homoiothermy is a distinct trait of mammals and a few bird species. ("The ability to regulate body temperature differs between insects, which exhibit heterothermy, and mammals, which exhibit homoiothermy.")Example 3: Descriptive Passage
The camel is an example of an animal that exhibits homoiothermy, allowing it to withstand extremely hot temperatures in the desert without succumbing to heat stress. ("Camels have adapted to their hot desert habitat through their ability to maintain a constant body temperature, a hallmark of homoiothermy.")Example 4: Definition Sentence
Homoiothermy is a physiological characteristic that distinguishes some animal groups, such as mammals and birds, from others, like reptiles and amphibians. ("Homoiothermy is a key characteristic that distinguishes warm-blooded animals from cold-blooded animals.")Example 5: Research Abstract
Our study examined the physiological adaptations that enable homoiothermy in several species of mammals, revealing unique morphological and biochemical features that facilitate this ability. ("Scientists have studied the physiological adaptations that enable homoiothermy in mammals, shedding light on the unique features that allow this phenomenon.")"Homoiothermy" Similar Words
Homography
Homography refers to a complete similarity in form, appearance, or structure between words, phrases, or concepts that are otherwise unrelated. In linguistics, homography specifically refers to words that are spelled and/or pronounced the same but have different meanings. For example, "bank" can refer to a financial institution, the side of a river, or the act of turning. Homography can lead to confusion and miscommunication, especially when the context is unclear.
Homogyne
Homogyne refers to a type of fungus that has a similar or identical spore-producing structure on both the top and bottom of its leaf-like or branch-like structures, called conidiophores. In other words, homogynes are fungi that have uniformly shaped and sized spores on both the apex and base of their conidiophores, which is characteristic of certain species of fungi belonging to the Ascomycota phylum.
Homoiconicity
Homoiconicity refers to the property of a formal language, such as a programming language or a markup language, where the syntax of the language is self-representing, meaning that the language can be used to represent itself, often in a way that is programmatic or meta. In other words, the language is capable of describing its own structure and syntax, often using its own syntax to do so.
Homoioptoton
Homoioteleuton
Homoiotherm
Homoiothermal
Homoiothermal refers to an organism or an entity that maintains a constant body temperature, regardless of the surrounding environment. This means that its internal temperature remains stable and constant, even when the temperature outside changes.
Homoiothermic
Homoiothermic refers to animals that are able to regulate their body temperature internally, regardless of the temperature of their environment. In other words, they are warm-blooded, meaning they generate heat from their metabolic processes and maintain a relatively constant body temperature, usually around 98.6°F (37°C), regardless of the temperature around them. Examples of homoiothermic animals include humans, mammals, and birds.
Homoiousian
Homoiousian refers to a Christian theological doctrine that emerged during the 4th century, particularly in the controversy surrounding the Council of Nicea (325 AD) and the Council of Constantinople (381 AD). The Homoiousians advocated for a moderate view on the relationship between the Father and the Son (Jesus Christ), asserting that the Father and Son are similar (homoios) in both substance and attributes. In other words, they believed that the Father and Son share a common essence or nature, but not an identical one. This position was seen as a middle ground between the Arius, who denied the divinity of Jesus, and the Homoousians, who believed in a complete equality of nature between the Father and Son. The Homoiousian position was eventually rejected, and the Homoousian position became the dominant view in the Christian Church.
Homolecithal
Homolecithal refers to a type of cell that develops from one blastomere (a single cell) of a two-cells embryo (zygote). In other words, a homolecithal cell comes into being when a cell of an embryo develops into a single cell type, rather than joining with another cell to form a different cell type. This concept is often used in embryology and developmental biology to describe the process of cell differentiation and patterning during embryogenesis.
Homolog
The word "homolog" refers to something that is similar or analogous in function or structure to another thing. In biology, homologous structures are parts of different organisms that have evolved from a common ancestor, but have been modified over time for different purposes. For example, the forelimbs of humans, birds, and whales are homologous because they all descended from a common limb-like structure in their ancient ancestors.
Homologate
To homologate something means to officially approve or recognize it, especially a new product or technology, as meeting the required standards or regulations, typically in a specific industry or region.
Homologated
Homologated refers to a mechanism or product that has been approved, certified, or authorized by a relevant authority or standard-setting organization, typically for use in a specific context, such as technology, transportation, or healthcare. In other words, it is officially recognized as meeting certain specifications, requirements, or regulations.
Homologating
Homologating refers to the process of officially recognizing or sanctioning something, typically in a professional or official context. It often involves meeting specific standards, requirements, or regulations, and the resulting certification or approval is often denoted by a specific term or designation. In a broader sense, homologating can also imply a degree of conformity or similarity to a standard or model, often used in fields such as engineering, technology, or even biology.
Homologation
Homologation refers to the process of obtaining official approval or recognition for a product, service, or technology that meets the required standards, specifications, or regulations of a particular organization, government, or industry. This can apply to various fields such as medicine, engineering, transportation, or manufacturing, where the entity seeking homologation must demonstrate conformity with specific requirements to receive certification or authorization.
Homological
The word "homological" refers to a relationship or structure that can be derived from, or is equivalent to, a quotient or a factor group. In other words, two spaces are said to be homological if they have the same topological invariants, such as their fundamental groups or homotopy groups, even if they are not homeomorphic. In algebraic topology, homological equivalence is used to describe the properties of topological spaces that are preserved under continuous deformations, such as stretching and bending. In this sense, two spaces are homological if they are homeomorphic to each other, meaning that they can be transformed into each other without tearing or gluing.