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Diffusion is a type of passive transport but the answer I think you are looking for is this: water, gasses(N,O2,CO2...), and ions(K+, Na+...)
These would be called plasma or water soluble molecules and would include albumin, ions, hormones, lipids and gases.
Hydroxide ions (OH-)
Many elements are found in nature in molecular form - two or more atoms (of the same type of element) are bonded together. Oxygen, for example, is most commonly found in its molecular form "O2" (two oxygen atoms chemically bonded together).
The plasma membrane is composed mostly of phospholipids
The number of chloride ions present in a given substance depends on the substance size and the type of substance.
Molecular Ions essentially consist of the same type of atoms (most probably the atoms of the same element) and the radicals may not have the same characteristic.
The reaction of chlorine with potassium bromide is a reduction-oxidation reaction. The chloride oxidizes bromide ions to molecular bromine, and itself is reduced to chloride ions.
Voltage-gated Sodium ions and Potassium ions channels
Diffusion is a type of passive transport but the answer I think you are looking for is this: water, gasses(N,O2,CO2...), and ions(K+, Na+...)
AB plasma has been considered as the universal Blood plasma type, and therefore AB plasma is given to patients with any Blood type.
Once you get into the realm of compounds you are really looking at two types---ionic and molecular. Molecular compounds are made up of all the same type of molecule, and those molecules consist of a series of atoms covalently bonded together. The molecular formula of a molecular compound gives the number of each type of atom that makes up the molecule. Ionic compounds are different---there are no definable molecules present, just lattices of alternating positive and negative ions (charged atoms). So unlike molecular compounds there is no definable subunit in an ionic compound. Instead ionic compounds are represented by the simplest ratio of ions in the compound. For instance, in table salt there is one sodium ion per chlorine ion so the formula is NaCl. that does not mean there are little NaCl molecules making up the compound, just that the ratio of those two ions is 1:1. In calcium chloride there are two chloride ions for every calcium ion, so its formula is CaCl2. So the simple answe to the question is that molecular formulas are not used for ionic compounds because they are not comprised of molecules. That does not keep people (even chemists) from referring to the formulas of ionic compounds as "molecular formulas" but it is technically a misnomer. Simply calling them "formulas" or "ionic formulas" would be more appropriate.
These would be called plasma or water soluble molecules and would include albumin, ions, hormones, lipids and gases.
H+ ions
Since a patient with Type B blood has B antigens on their RBC's and since Type O blood has both anti-A and anti-B antibodies present in the blood plasma, the donor blood needs to be treated before transfusion. The Type O blood needs to be separated into packed cells and plasma, usually done by centrifuge, and only the packed cells should be used for the transfusion. Remember the anti-B antibodies are present in the Type O blood plasma and could cause serious damage in the system of a patient with Type B blood.
When a strong base is dissolved in water , OH ion concentration will be high.
Assuming the question is "do all isotopes of an element form the same type of ions" then the answer is YES.The chemistry of an element is determined by the number of protons and electrons.Isotopes of an element only differ one from another by the number of neutrons present in the nucleus, the chemistry is not affected, and they will form the same ions.An example is chlorine. The two common isotopes are 35Cl and 37Cl which are both present in nature. Both form Cl- ions.