a single strand of protein is wondering in the cell that makes thymine (one bond) connect with another bond called adenine. then the hydrogen bond (a type of surge) goes in between the different bonds and it acts like glue and is used like glue.
The hydrogen bonds in starch molecules are broken when starch is heated. This results in the gelatinization of starch, where the starch molecules absorb water, swell, and become thickened.
During the combustion of methane (CH4) to form water (H2O) and carbon dioxide (CO2), the bonds broken are the carbon-hydrogen (C-H) bonds in methane and the oxygen-oxygen (O=O) bonds in molecular oxygen (O2). These bonds are broken to form new bonds between carbon and oxygen in CO2, and hydrogen and oxygen in H2O.
Water molecules are attracted to each other, resulting in the formation if weak chemical bonds, called hydrogen donds. When water is heated the heat energy disrupts the hydrogen bonds reulting in hydrogen bonds between water molecules to be broken.
When hydrogen bonds between the base pairs of the DNA double helix are broken, the nitrogenous bases of each strand become exposed. This exposes the sequence of nucleotides that comprise the genetic information, allowing for processes such as replication and transcription to occur. The two strands of DNA separate at the points where the hydrogen bonds were broken, revealing the bases that can then interact with complementary nucleotides.
Hydrogen bonds are the most common bonds found in hair that can be easily broken by heat or water. These bonds are responsible for the flexibility and movement of hair strands, which is why they are affected by changes in temperature or moisture levels.
Hydrogen bonds between the nitrogenous bases need to be broken for the DNA strand to separate during replication or transcription.
yes they can be easily broken
Hydrogen bonds are easily broken. Think of swimming through water.
Hydrogen Bonds
Hydrogen Bonds Must be broken
When HF vaporizes, the intermolecular bonds known as hydrogen bonds between HF molecules are broken. These hydrogen bonds are formed between the hydrogen atom of one HF molecule and the fluorine atom of another HF molecule due to the electronegativity difference between hydrogen and fluorine.
Hydrogen Bonds
the double bonds in propylene are broken and attach to the hydrogen
When HCl vaporizes, the bonds that are broken are the ionic bonds between hydrogen and chlorine in the HCl molecule. These bonds are broken as the molecules transition from a liquid to a gas state.
When the hydrogen bonds of water are broken, water molecules separate into individual hydrogen and oxygen atoms. This process is typically associated with the conversion of water into its gaseous form, steam.
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Hydrogen Bonds