Covalency in a sentence
Synonym: valency.
Meaning: Covalency refers to the degree to which atoms can share electrons in covalent bonds.
(1) The covalency of a molecule affects its shape and polarity.
(2) The covalency of the chemical bond determines its strength.
(3) The covalency of chlorine makes it a highly reactive element.
(4) The covalency of oxygen in ozone leads to its unique properties.
(5) The covalency of nitrogen in ammonia results in a stable molecule.
(6) The covalency of the bond between two hydrogen atoms is very high.
(7) The covalency of nonmetals is generally higher than that of metals.
(8) The covalency of a molecule determines its stability and reactivity.
(9) The covalency of metals can vary depending on their oxidation state.
(10) The covalency of water molecules allows them to form hydrogen bonds.
Covalency sentence
(11) The covalency of the double bond in ethene makes it highly reactive.
(12) The covalency of the bond between two carbon atoms in ethane is single.
(13) The covalency of the bond between two neon atoms in neon gas is single.
(14) The concept of covalency is essential in understanding chemical bonding.
(15) The covalency of the bond between two chlorine atoms is relatively weak.
(16) The covalency of the bond between sodium and chlorine in salt is strong.
(17) The covalency of hydrogen is crucial in the formation of water molecules.
(18) The covalency of oxygen in ozone leads to its unique chemical properties.
(19) The covalency of the bond between two argon atoms in argon gas is single.
(20) The covalency of the bond between two xenon atoms in xenon gas is single.
Covalency make sentence
(21) The covalency of the bond between two radon atoms in radon gas is single.
(22) The covalency of the bond between two boron atoms in boron gas is single.
(23) The covalency of a molecule can be predicted based on its Lewis structure.
(24) The covalency of carbon allows it to form strong bonds with other elements.
(25) The covalency of iodine is important in the synthesis of organic compounds.
(26) The covalency of a compound can be reduced by introducing steric hindrance.
(27) The covalency of the bond between two oxygen atoms in oxygen gas is double.
(28) The covalency of the bond between two sulfur atoms in sulfur gas is double.
(29) The covalency of the bond between two iodine atoms in iodine gas is single.
(30) The covalency of the bond between two helium atoms in helium gas is single.
Sentence of covalency
(31) The covalency of the bond between two carbon atoms in carbon gas is single.
(32) The covalency of fluorine makes it one of the most electronegative elements.
(33) The covalency of a compound determines its physical and chemical properties.
(34) The covalency of phosphorus plays a significant role in biological processes.
(35) The covalency of the bond between nitrogen and hydrogen in ammonia is triple.
(36) The covalency of the bond between two bromine atoms in bromine gas is single.
(37) The covalency of the bond between two krypton atoms in krypton gas is single.
(38) The covalency of the bond between two lithium atoms in lithium gas is single.
(39) The covalency of bromine enables it to form compounds with diverse properties.
(40) The covalency of the bond between two nitrogen atoms in nitrogen gas is triple.
Covalency meaningful sentence
(41) The covalency of the bond between two fluorine atoms in fluorine gas is single.
(42) The covalency of the bond between two hydrogen atoms in hydrogen gas is single.
(43) The covalency of the bond between two aluminum atoms in aluminum gas is single.
(44) The covalency of oxygen enables it to participate in various chemical reactions.
(45) The covalency of nitrogen is responsible for its ability to form multiple bonds.
(46) The covalency of a substance can be altered by changing its molecular structure.
(47) The covalency of a bond can be weakened by the presence of resonance structures.
(48) The covalency of the bond between carbon and oxygen in carbon dioxide is double.
(49) The covalency of a bond can be determined by analyzing its electron distribution.
(50) The covalency of a compound can be altered by changing the pH of its environment.
Covalency sentence examples
(51) The covalency of carbon atoms enables the formation of complex organic compounds.
(52) The covalency of the bond between two beryllium atoms in beryllium gas is single.
(53) The covalency of the bond between two phosphorus atoms in phosphorus gas is single.
(54) The covalency of sulfur allows it to form stable compounds with many other elements.
(55) The covalency of a substance can be affected by changes in temperature and pressure.
(56) The covalency of a bond can be increased by increasing the overlap of atomic orbitals.
(57) The covalency of a bond can be weakened by the presence of electron-withdrawing groups.
(58) The covalency of a compound can be enhanced by the presence of electron-donating groups.
(59) The covalency of a molecule can be influenced by the presence of lone pairs of electrons.
(60) The covalency of a chemical bond can be quantified using various spectroscopic techniques.
(61) The covalency of a substance can be measured using various spectroscopic and computational methods.
Covalency meaning
Covalency is a term used in chemistry to describe the sharing of electron pairs between atoms in a chemical bond. It is a fundamental concept that plays a crucial role in understanding the nature of chemical compounds and their properties. In this article, we will explore various tips on how to use the word "covalency" or the phrase "covalent bond" in a sentence effectively.
1. Define the term: When introducing the word "covalency" or the phrase "covalent bond" in a sentence, it is essential to provide a clear definition.
For example, "Covalency refers to the sharing of electron pairs between atoms in a covalent bond."
2. Contextualize the concept: To enhance understanding, it is helpful to provide context or examples related to covalency. For instance, "The covalent bond between hydrogen and oxygen in water molecules is responsible for its unique properties."
3. Explain the significance: Elaborate on why covalency is important in chemistry. You can mention how it influences the stability, reactivity, and physical properties of compounds.
For example, "The covalency of a molecule determines its chemical behavior and its ability to form bonds with other substances."
4. Use it in a scientific context: To demonstrate a deeper understanding of the term, incorporate it into a sentence that reflects its scientific application. For instance, "The covalency of carbon atoms in organic compounds allows for the formation of complex molecular structures."
5. Compare with other types of bonds: Highlight the differences between covalent bonds and other types of chemical bonds, such as ionic or metallic bonds. This comparison can help readers grasp the unique characteristics of covalency.
For example, "Unlike ionic bonds, covalent bonds involve the sharing of electrons rather than complete transfer."
6. Discuss the concept's historical background: Provide a brief overview of the historical development of the concept of covalency. You can mention notable scientists who contributed to its understanding, such as Gilbert N. Lewis or Linus Pauling.
7. Relate it to real-life examples: Connect the concept of covalency to everyday situations or phenomena. For instance, "The covalent bonds in diamond give it its exceptional hardness and brilliance."
8. Use it in a problem-solving context: Demonstrate how the understanding of covalency can be applied to solve chemical problems or predict molecular structures.
For example, "By analyzing the covalency of the atoms involved, chemists can determine the shape of a molecule."
9. Discuss its relevance in different fields: Highlight how covalency extends beyond chemistry and is applicable in various scientific disciplines, such as biochemistry or materials science. For instance, "Understanding the covalent interactions between amino acids is crucial in studying protein folding and function."
10. Conclude with a summary: Wrap up the article by summarizing the key points discussed and reiterating the importance of covalency in chemistry.
In conclusion, covalency is a fundamental concept in chemistry that describes the sharing of electron pairs in a covalent bond. By following these tips, you can effectively incorporate the word "covalency" or the phrase "covalent bond" in sentences, enhancing your understanding and communication of this essential concept.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Covalency. They do not represent the opinions of TranslateEN.com.