Hydrogen bonding
Motor oil primarily consists of molecules with covalent bonds. These bonds result from the sharing of electrons between atoms within the molecules, providing the oil with its fluid properties and stability under high temperatures and pressures.
It seems like there might be a misunderstanding. "Covalent" refers to a type of chemical bond, while "blood" is a bodily fluid that transports nutrients and oxygen. There is no such thing as "covalent blood."
Based on the naming rules for acids. This would be just hydrogen and carbon. H2C or H4C. BUT.. I do not know if this exists in nature, since carbon tends to form covalent bonds with hydrogen, not ionic. CH4 is methane, and CH2 is acetylene.
In any pure liquid, the molecules within a few molecular diameters of the surface of the interface of the pure liquid with some other fluid have more average kinetic energy than do those molecules of the pure liquid that are deep within the liquid volume. This phenomenon, often called "surface tension", arises because the attractive forces between molecules that cause a gas to condense into a liquid can not be as strong in molecules at the interface, since a molecule at the interface is in contact with only half as many other molecules of the liquid as are the molecules within its interior. This effect is particularly strong in water because of its extensive "hydrogen bonding" in liquid phase. The average cohesive energy from hydrogen bonding in water is considerably greater than the average energy of the van der Waals forces that cause most liquids to cohere, so that water has one of the highest quantitative surface tensions known.
Generally, molecular covalent substances do not conduct electricity. Carbon as graphite is the exception. This is because they are neutrally charged; they do not have ions or delocalized electrons as these are being shared by the non-metals. Yet some conduct electricity when dissolved in water. This is because some react with water to produce ions which are attracted to the oppositely charged electrodes.
Motor oil primarily consists of molecules with covalent bonds. These bonds result from the sharing of electrons between atoms within the molecules, providing the oil with its fluid properties and stability under high temperatures and pressures.
Hydrogen is lighter than air, making it buoyant, because air is a fluid. It works on the same principle as floating wood.
It seems like there might be a misunderstanding. "Covalent" refers to a type of chemical bond, while "blood" is a bodily fluid that transports nutrients and oxygen. There is no such thing as "covalent blood."
pedal edema, hypertension, bonding pulse
.hydrogen and ammonia
Based on the naming rules for acids. This would be just hydrogen and carbon. H2C or H4C. BUT.. I do not know if this exists in nature, since carbon tends to form covalent bonds with hydrogen, not ionic. CH4 is methane, and CH2 is acetylene.
no
Yes, Hydrogen sulfide is present in trace amounts in blood and intracellular fluid. it also contributes to the odor of flatulence.
weak bonding among the atoms or moecules as compare to solids make the liquids as fluids...
An aeriform fluid is a substance that exists in a gaseous state at room temperature and pressure. It is a fluid that flows and takes the shape of its container, like a gas. Examples include oxygen, nitrogen, and hydrogen.
No you can't. H2O2 is not flammable, it is an oxidizer.
it is different because how the pelvis eats its inner cords . sometimes it gets heavy and falls off like a crotch in a cave. most of the tym the girl sitting next to me has vaginal fluid on her brain