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How does hydrogen bonds cohesion and surface tension allow some insects and animals to walk on water?
The answer is pretty simple, and has to so with properties of water, mostly, not insects. Water molecules are polar molecules containing Oxygen and Hydrogen. This allows them to form hydrogen bonds when in close proximity to each-other (hydrogen bonds are a strong type of Inter-molecular force.) The molecules on the surface, however, have less water molecules near them, and so form stronger hydrogen bonds with nearby water molecules. Some insects, like the iconic water strider, have large feet to displace their weight over a large area, and thus avoid breaking the surface hydrogen bonds, which allows them to "walk on water."
What else can I help you with?
How do things like insects use surface tension?
Surface tension is most important to insects who land on water. Because of cohesion, the hydrogen bonds in water make each individual water molecule "sticky."
How do living things insects use surface tension?
Surface tension is most important to insects who land on water. Because of cohesion, the hydrogen bonds in water make each individual water molecule "sticky."
How do living things like insects use surface?
Surface tension is most important to insects who land on water. Because of cohesion, the hydrogen bonds in water make each individual water molecule "sticky."
How do living thing like insects use surface tension?
Surface tension is most important to insects who land on water. Because of cohesion, the hydrogen bonds in water make each individual water molecule "sticky."
Does cohesion create surface tension in water?
Cohesion of water molecules occurs through the formation of hydrogen bonds between molecules
Are hydrogen bonds an example of cohesion?
Yes, hydrogen bonds are an example of cohesion. Cohesion refers to the attraction between molecules of the same substance, and hydrogen bonds form between water molecules due to the positive and negative charges on the hydrogen and oxygen atoms. This cohesion is responsible for the surface tension and high boiling point of water.
What property of water allows water molecules to stick together?
The property is called cohesion, which is the attraction between water molecules due to hydrogen bonding. This cohesion allows water molecules to stick together and form hydrogen bonds, creating surface tension and other unique properties of water.
What do cohesion surface tension and adhesion all have in common with reference to water?
Cohesion, surface tension, and adhesion are all properties of water that stem from its ability to form hydrogen bonds between water molecules. Cohesion refers to water molecules sticking to each other, surface tension is the result of the cohesive forces at the surface of water, and adhesion is the attraction of water molecules to other substances.
What property of water molecules causes a large surface tension?
Hydrogen bonding between water molecules creates cohesion at the water's surface, leading to surface tension. This attraction allows water to resist external forces and form droplets or beading on surfaces.
The tendency of water molecules to stay close to each other as a result of hydrogen bonding?
This tendency of water molecules to stick together is known as cohesion, which is a result of the hydrogen bonds between the molecules. This cohesion gives water its high surface tension and ability to form droplets.
What is the term for the cohesion of water molecules?
The term is "hydrogen bonding." It is a type of intermolecular force that occurs between the hydrogen atom of one water molecule and the oxygen atom of another water molecule, creating strong cohesion between the water molecules.
What is the relationship among hydrogen bonds amd the forces of cohesion adhesion and capillarity?
Hydrogen bonds are responsible for cohesion, the attraction between molecules of the same substance. This cohesion leads to water's high surface tension and capillary action. Adhesion, the attraction between different substances, is also influenced by hydrogen bonds and contributes to water's ability to stick to other surfaces.
