"Isotopically" Pronounce,Meaning And Examples
"Isotopically" Natural Recordings by Native Speakers
"Isotopically" Meaning
Isotopically refers to the existence or state of being an isotope, which is a variant of a chemical element that has the same atomic number (number of protons in the nucleus) but a different atomic mass (number of protons plus neutrons in the nucleus) due to a different number of neutrons. In other words, isotopically refers to the variation in the percentage or proportion of different isotopes of a particular element present in a sample or substance.
"Isotopically" Examples
Isotopically
Isotopically is an adverb that means "at the level of isotopes" or "in relation to isotopes".
Examples
The scientist studied the isotopically weighted average of the sample to determine its composition.
The researchers analyzed the isotopically enriched compounds to identify their chemical properties.
The team measured the isotopically modified proteins to understand their function in the cell.
The chemist synthesized isotopically pure compounds for use in the experiment.
The geologist dated the rock sample isotopically to estimate its age.
Note: Isotopically is a less common word, and its usage is mostly seen in scientific and technical contexts, particularly in chemistry, physics, and biology.
"Isotopically" Similar Words
Isotone
In chemistry, isotones are atomic nuclei that have the same number of neutrons but different numbers of protons. Isotones are similar to isotopes, which are atoms of the same element that have the same number of protons (atomic number) but different numbers of neutrons. The key difference between isotones and isotopes is the number of protons, not the number of neutrons. In other words, isotones are atoms that belong to the same element, but with varying numbers of neutrons.
Isotones
Isotones are atoms that have the same number of neutrons in their atomic nucleus, but may not have the same number of protons and therefore do not belong to the same chemical element. They have the same atomic mass number, but differ in their proton count, hence their atomic numbers are different.
Isotonia
Isotonia refers to a state of equilibrium or balance between different concentrations of solutes, typically ions, within a solution or a system. In other words, isotonia means that there is no net movement of ions or molecules across a membrane or into another compartment due to an concentration gradient. This state is often achieved through the regulation of membrane permeability, protein-mediated transport, or other mechanisms that maintain homeostasis.
Isotonic
Isotonic refers to a solution that has the same concentration of solutes (dissolved substances) as the surrounding tissue or medium. In other words, isotonic fluids or solutions have the same osmotic pressure as the fluid or tissue they are in contact with. This means that there is no net flow of water or solutes across the cell membrane, making it a balanced state. Isotonicity is often important in medical and scientific applications, such as in the development of intravenous fluids, saline solutions, and perfusion fluids. For example, an isotonic solution of saline can be used to treat dehydration or to clean wounds without causing any damage to surrounding tissues.
Isotonicity
The term "isotonicity" refers to the property of a solution, such as a salt solution or a chemical mixture, that has the same osmotic pressure as another solution, typically with respect to a standard reference solution, usually a 0.9% solution of sodium chloride (also known as normal saline). In other words, an isotonic solution has the same concentration of solutes as the surrounding cells or tissues, allowing for equilibrium and the transport of molecules through cell membranes without causing changes in cell volume. Isotonicity is an important concept in physiology and medicine, particularly in the treatment of patients with various medical conditions, such as dehydration or sodium imbalances.
Isotope
An isotope is a version of an element that has a different number of neutrons in its atomic nucleus. Isotopes of a given element have the same number of protons (which determines the element), but differ in the number of neutrons. This means they have the same chemical properties, but different physical and atomic properties. Isotopes are often represented by the symbol of the element with the number of neutrons in superscript. For example, carbon-12 and carbon-14 are two isotopes of carbon.
Isotopes
Isotopes are atoms of the same element that have the same number of protons in their atomic nucleus (i.e., the same atomic number), but differ in the number of neutrons. This means that isotopes of the same element have the same chemical properties, but different physical properties, such as different atomic masses. Isotopes are chemical variants of an element that have different masses due to a difference in the number of neutrons in their atomic nuclei.
Isotopic
Having the same atomic mass as a given isotope, or occupying the same position in the atomic series as a given isotope; having the same atomic number and therefore the same chemical properties as a given isotope.
Isotopies
Isotopies refers to a concept in linguistics that describes words or phrases that have the same grammatical function in a sentence, but different meanings. In other words, isotopies are words or phrases that are synonyms in terms of their grammatical role, but not in terms of their semantic meaning. For example, in the sentence "The teacher gave the student a book", "teacher", "student", and "book" are isotopies, as they all function as direct objects, but have different meanings. The concept of isotopies is used to study linguistic structure and meaning, particularly in the field of semantics.
Isotopolog
A rare and interesting word!<br><br>An isotopolog is a molecule that consists of atoms of the same elements, but with different isotopic masses. In other words, it is a molecule made up of atoms that have the same number of protons (determining the element) but different numbers of neutrons (determining the isotopic mass). For example, H2O (water) has isotopologues such as HDO (deuterium oxide) and D2O (heavy water), which have different numbers of neutrons in the hydrogen atoms. This concept is important in chemistry, physics, and biology, particularly in the study of chemical reactions, biological processes, and the behavior of atoms and molecules.
Isotopologue
An isotopologue is a molecule that contains atoms of the same element but with different numbers of neutrons.
Isotopomer
An isotopomer is a molecule that contains the same number of atoms of a particular element as another molecule, but has a different number or arrangement of isotopes of that element. Isotopomers are a type of isotomer, which is a molecule that has the same molecular formula as another molecule, but a different structure or arrangement of atoms.
Isotopy
Isotopy is a term used in chemistry and physics to refer to the property of atoms of the same chemical element that have the same number of protons in their atomic nucleus (atomic number). Isotopic atoms of the same element can differ in the number of neutrons in their nucleus, which affects their atomic mass.
Isotretinoic
Isotretinoic acid, also known as Accutane, is a medication used to treat severe recalcitrant nodular acne, as well as rosacea and some rare skin disorders. It is a derivative of vitamin A and is typically used as a second-line treatment when other acne treatments have failed. It works by decreasing the size of the pores in the skin and reducing the production of sebum, which can help to prevent blackheads and whiteheads from forming.
Isotretinoin
Isotrimorphic
Isotrimorphic refers to a shape or object that has three identical triangular faces. In other words, it is a three-dimensional shape that is composed of three triangular faces that are identical in shape and size, and share a common vertex.