No. Lipid molecules that are unsaturated have less hydrogen atoms because of carbon-carbon double bonds.
No. Lipids with the maximum number of hydrogen atoms are referred to as saturated.
No, the attractions between water molecules are not called polar bonds; they are referred to as hydrogen bonds. Polar bonds occur within the water molecule itself, where the oxygen atom is more electronegative than the hydrogen atoms, creating a dipole moment. The hydrogen bonds form between the positively charged hydrogen atoms of one water molecule and the negatively charged oxygen atoms of neighboring water molecules, contributing to water's unique properties.
All stable molecules except hydrogen contain neutrons (and even hydrogen molecules contain some neutrons if you choose a large enough sample, just not many).The neutrons are found inside the atoms that make up the molecule; only hydrogen-1 (the form of hydrogen that has a nucleus consisting of a single proton) has no neutrons. Any other atom with no neutrons is radioactive and highly unstable (in the sense of "undergoes radioactive decay in fractions of a nanosecond"). On Earth, about one in one million hydrogen atoms is hydrogen-2, which has both a proton and a neutron, and is not radioactive, so around one in 500,000 hydrogen molecules contains a neutron.
When two hydrogen atoms combine, they form a molecule called dihydrogen, which is commonly referred to as hydrogen gas (H2).
It is called wet hydrogen gas because it is collected over water.
No. Lipids with the maximum number of hydrogen atoms are referred to as saturated.
Hydrogen Bonding
Bonding between water molecules is referred to as hydrogen bonds.
H2O as a gas is called water vapour. Liquid and gaseous water molecules are made up of hydrogen and oxygen atoms.
Actually, both are same. Both can form in liquid state at room temperature. Both alcohol molecules and water molecules contain H and O . Both are compounds ,different types of atoms. Both are formed from covalent bonds and non metals. For further explanation water molecules hold hydroxyl groups that can form hydrogen bonds with water molecules and with alcohol molecules. And alcohol molecules can form hydrogen bonds with other alcohol molecules such as with water. As alcohol form hydrogen bonds with water and tend to be relatively soluble in water. The hydroxyl group is referred to as a hydrophilic group, because it forms hydrogen bonds with water and increase the solubility of an alcohol in water.
A hydrogen ion is often referred to as a proton due to its single positive charge.
All stable molecules except hydrogen contain neutrons (and even hydrogen molecules contain some neutrons if you choose a large enough sample, just not many).The neutrons are found inside the atoms that make up the molecule; only hydrogen-1 (the form of hydrogen that has a nucleus consisting of a single proton) has no neutrons. Any other atom with no neutrons is radioactive and highly unstable (in the sense of "undergoes radioactive decay in fractions of a nanosecond"). On Earth, about one in one million hydrogen atoms is hydrogen-2, which has both a proton and a neutron, and is not radioactive, so around one in 500,000 hydrogen molecules contains a neutron.
A proton
Actually, it can't be trihydrogen because 3H2 is equivalent to 6 H. That means 3 times H2 equals to 6 atoms of hydrogen. So, it's not trihydrogen; it's hexahydrogen =)
Well water is an example in its self. Hydrogen and oxygen bond together to form water. But to really answer your question salt is attracted to water because the partial charges on the water molecule are attracted to the Na+ and Cl- ions.
Sugar is composed of carbon, hydrogen, and oxygen atoms arranged in a specific chemical structure. These elements combine to form molecules such as glucose and sucrose, which are commonly referred to as sugars.
No, the hydrogen-oxygen bond in a water molecule cannot break by applying resonance high frequency. Resonance involves the oscillation of electrons within molecules or chemical bonds but does not have enough energy to break covalent bonds like the one between hydrogen and oxygen atoms in water.