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∙ 14y agoHydrogen bonds are what give water its amazing abilities of cohesion, adhesion, and surface tension. Cohesion is what makes water molecules stick together. Think about watching raindrops trickle down a window. When they touch each other, they combine into one droplet. That is the hydrogen part of a water molecule forming a bond with the oxygen part of another water molecule. Adhesion is what allows water molecules to stick to other substances, due to the aforementioned hydrogen bonds. Surface tension is what allows some insects to walk on water. If you look closely at them, you can see the surface of the water dip where the insects' legs touch the water. The water molecules are still being held together by the hydrogen bonds; however, if you or I were to try to walk on water, our weight would cause the hydrogen bonds to break, and we would fall in.
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∙ 9y agoHydrogen bonds between water molecules create cohesion, which gives water its high surface tension and allows it to flow and transport nutrients in plants and animals. These bonds also contribute to water's high specific heat capacity, which helps regulate temperature in living organisms and climates.
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∙ 14y agoHydrogen bonds are strong they give the water properties like high heat capacity and high latent heat. Also they can join with each other.
No, hydrogen bonds can form between many different molecules, including adenine-thymine and guanine-cytosine base pairs in DNA. Hydrogen bonds are also important in other biological processes, such as protein folding and binding.
Organic molecules are primarily held together by covalent bonds. These bonds involve the sharing of electrons between atoms to achieve stability. Other important bonds in organic molecules include hydrogen bonds, van der Waals interactions, and occasionally ionic bonds.
Hydrogen bonds are not hydrophobic. In fact, hydrogen bonds are typically important in stabilizing the structure of many hydrophilic molecules in water by forming between polar molecules or within the same molecule. Hydrophobic interactions, on the other hand, are interactions between non-polar molecules that tend to be repelled by water.
Yes, CH3OCH2CH3 (dimethyl ether) can form hydrogen bonds with other molecules. The oxygen atom in CH3OCH2CH3 is capable of participating in hydrogen bonding with hydrogen atoms from other molecules that have hydrogen bond donors, such as OH or NH groups.
In water and many other compounds hydrogen and oxygen are held by covalent bonds.Between water molecules and between other polar molecules hydrogen of one molecule and oxygen of a different molecule are held by hydrogen bonds.
Hydrogen Bonds
Hydrogen bonds bond water molecules with other water molecules. These bonds are formed between the hydrogen atom of one water molecule and the oxygen atom of another water molecule. Hydrogen bonding gives water its unique properties such as high surface tension and the ability to dissolve many substances.
No, hydrogen bonds can form between many different molecules, including adenine-thymine and guanine-cytosine base pairs in DNA. Hydrogen bonds are also important in other biological processes, such as protein folding and binding.
These are hydrogen bonds.
Organic molecules are primarily held together by covalent bonds. These bonds involve the sharing of electrons between atoms to achieve stability. Other important bonds in organic molecules include hydrogen bonds, van der Waals interactions, and occasionally ionic bonds.
The most important intermolecular bond between water molecules is the hydrogen bond. Hydrogen bonds are formed between the partially positive hydrogen atoms of one molecule, and the partially negative oxygen atoms other molecules.
Hydrogen bonds are not hydrophobic. In fact, hydrogen bonds are typically important in stabilizing the structure of many hydrophilic molecules in water by forming between polar molecules or within the same molecule. Hydrophobic interactions, on the other hand, are interactions between non-polar molecules that tend to be repelled by water.
Water has two main bonds: hydrogen bonds between other water molecules, and a covalent bond between hydrogen and oxygen.
Water is composed of molecular bonds, but forms hydrogen bonds with other water molecules. Hydrogen bonds are not actual bonds, but they cause an attraction between the water molecules, which is why water is adhesive.
Yes, CH3OCH2CH3 (dimethyl ether) can form hydrogen bonds with other molecules. The oxygen atom in CH3OCH2CH3 is capable of participating in hydrogen bonding with hydrogen atoms from other molecules that have hydrogen bond donors, such as OH or NH groups.
Water molecules are bonded together using hydrogen bonds. Hydrogen bonds occur when positive and negative charged parts of the molecules are attracted to the opposite charge in other molecules.
Water is composed of molecular bonds, but forms hydrogen bonds with other water molecules. Hydrogen bonds are not actual bonds, but they cause an attraction between the water molecules, which is why water is adhesive.