"Chromatogram" Pronounce,Meaning And Examples

"Chromatogram" Natural Recordings by Native Speakers

Chromatogram
speak

"Chromatogram" Meaning

A chromatogram is a graphical representation of the separation of a mixture of substances, such as chemicals, DNA, or proteins, based on their physical and chemical properties. It is a common technique used in analytical chemistry, biochemistry, and molecular biology to identify, quantify, and purify the components of a mixture.

"Chromatogram" Examples

Chromatogram


A chromatogram is a plot of the absorption or transmission (or other properties) of one or more compounds versus their retention volume, usually recorded in chromatography.

Examples:


Biotechnology: The researcher examined the chromatogram to identify the specific components of the newly discovered enzyme.
Medicine: After running the patient's blood sample, the doctor studied the chromatogram to determine the levels of certain medicines in their system.
Food Science: The food scientist used gas chromatography to analyze the flavors and fragrances in the wine, then examined the chromatogram to identify the specific compounds responsible for its aroma.
Pharmacology: The research team analyzed the chromatogram to identify the unique metabolites produced by the new drug.
Environmental Science: The environmental scientist analyzed the water sample using liquid chromatography and examined the chromatogram to identify the presence of certain pollutants.

"Chromatogram" Similar Words

Chromaticity

speak

Chromatics

speak

Chromatics refers to the branch of optics that deals with the study of colors and their properties, such as their harmony, contrast, and simultaneous display. The term chromatics also describes something that is concerned with or characterized by color, such as chromatics music or chromatics art.

Chromatid

speak

A chromatid is a single copy of a duplicated chromosome that is still attached to its identical twin by the centromere. During cell division, the chromatids separate and become individual chromosomes, each containing the same genetic information. The process of chromatin condensing to form chromatids is called chromatin condensation.

Chromatids

speak

Chromatin

speak

Chromatin refers to the complex of DNA and proteins that make up the chromosome of a cell. Chromatin is composed of DNA wrapped around a protein core, and when a cell is not actively using its genes, the chromatin is compacted into a more manageable structure called chromatin fiber.

Chromatinic

speak

I apologize, but "chromatinic" is not a recognized English word. It's possible that it's a made-up or variant term, or it could be a typo or misspelling.<br><br>However, the word "chromatin" is a real term that refers to the complex of DNA and proteins that make up the chromosome in the nucleus of eukaryotic cells. It's often used in the context of genetics, molecular biology, and cell biology.

Chromatism

speak

Chromatism refers to the condition of having a distorted sense of color, in which colors are perceived as confused, mixed, or altered. It can also describe the tendency of a color to shift or change under different lighting conditions or when viewed in combination with other colors. In a broader sense, chromatism can also refer to the study or analysis of the properties of colors and their relationships with each other.

Chromatogenous

speak

Chromeatogenous refers to something that is produced or derived from colors or pigments. In biology, it specifically refers to bacteria that produce colored pigments, particularly sulfur-reducing bacteria that produce green, yellow, or orange colors. In chemistry, it can refer to the production of color or pigments through chemical reactions.

Chromatograms

speak

Chromatograph

speak

Chromatographed

speak

The word "chromatographed" refers to the process of separating a mixture of substances, such as liquids or gases, into their individual components based on their physical or chemical properties. This is typically done using a specialized device called a chromatograph, which uses a stationary phase and a mobile phase to separate the components. The word "chromatographed" is the past tense of the verb "to chromatograph", and it is often used in scientific contexts, particularly in fields such as chemistry, biology, and medicine.

Chromatographic

speak

Chromatographic refers to the process of analyzing the components of a mixture by separating them based on their solubility in different solvents or their affinity for different adsorbents. This is often done to identify and quantify the individual components of a mixture, such as in the analysis of biological samples, environmental contaminants, or pharmaceuticals.

Chromatographical

speak

Chromatographical refers to the process or method of chromatography, which is a laboratory technique used to separate, identify, and quantify the components of a mixture based on their physical and chemical properties.

Chromatographically

speak

Chromatographically refers to the process of separating the components of a mixture based on their interactions with different solvents or stationary phases, typically using techniques such as liquid chromatography (LC), gas chromatography (GC), or paper chromatography. This method is often used in analytical chemistry to identify, purify, and quantify the components of a mixture, such as proteins, carbohydrates, and small molecules.

Chromatographs

speak

Chromatographs are scientific instruments used to separate, identify, and quantify the components of a mixture. They work by passing a sample through a stationary phase, such as a solid or liquid, and a mobile phase, such as a gas or liquid, to separate the components based on their physical and chemical properties, such as size, charge, and solubility. The resulting separated components are then detected and recorded, allowing scientists to identify and quantify the individual components of the mixture.

Chromatography

speak

Chromatography is a laboratory technique used to separate, identify, and quantify the components of a mixture. It works by passing a sample through a stationary phase and a mobile phase, allowing the components to separate based on their interactions with each other and with the phases. The separation is often visualized by observing the various components as they emerge from the column, or else detected by adding a chromogenic substance to the mobile phase.