Yes. water is h20 the 2 being atoms its 2 atoms of hydrogen and one oxygen. which for one molecule. and im not sure the formula for chlorine but im pretty sure its a molecule.
Chlorine is soluble in both hot and cold water. In fact, it dissolves more easily in cooler water than in warmer water.
Chlorine and iodine are both elements that form diatomic molecules (molecules that consist of two atoms). One atom of chlorine is symbolised by Cl; however, single atoms of chlorine do not exist unattached to other atoms. One molecule of chlorine is Cl2. The situation is the somewhat similar for iodine, and a molecule of iodine is I2. Please see the links.
No color. When burning chlorine, the flame gains no additional color from the chlorine. Examples of this may be found by burning Aluminum chloride or Magnesium chloride, both of which burn colorless. This means that Chlorine contributes no color to the flame.
The boiling point of iodine (184.3 0C) is substantially higher than the boiling point of chlorine (-34 0C). Each element occurs at standard temperature and pressure as diatomic molecules; iodine molecules have substantially more mass than chlorine molecules; dispersion forces will be higher beween iodine molecules as they have more electrons than chlorine molecules. Both these factors contribute, mass will alomost certainly be the predominant factor.
A Salt water pool is a chlorine pool. The difference is that in the case of a saltwater pool there is a chlorinater fited inline that converts the salt into chlorine automaticaly, Meaning that you don't have to purchace any chlorine to keep up chlorine levels.
Water, ammonia, and alcohols are examples of molecules that can act as both hydrogen bond acceptors and donors.
Both the flame heating the pan and the pan heating the water are examples of conduction. Convection is when the molecules of water heat other molecules of water.
Amphipathic means a molecule containing both polar (water-soluble) and non-polar (not water-soluble) portions or having hydrophobic and hydrophilic regions in its structure. Examples include phospholipids, glycolipids, steroids, etc.
Some examples of molecules that can act as both hydrogen bond donors and acceptors include water (H2O), ammonia (NH3), and ethanol (C2H5OH). These molecules have hydrogen atoms that can form hydrogen bonds with other molecules by donating or accepting hydrogen atoms.
Yes. The ozone and water are both molecules.
When carbon dioxide and chlorine are mixed, they do not react chemically with each other. Instead, they remain as separate molecules. Both carbon dioxide and chlorine are stable molecules and will not form a chemical compound when combined.
Combined chlorine is when the chlorine molecule has attached itself to other molecules in water. In other words it has "combined" with something else in the water. Those could be iron, manganese, ammonia or other things depending on the source water. Free chlorine is the molecules that are "free" in the water to do the disinfection.
When carbon dioxide and chlorine mix, they do not react with each other. Both are stable molecules and they remain separate in the mixture.
Yes, H2O and Ozone both are molecules. H20 is water.
Chlorine is soluble in both hot and cold water. In fact, it dissolves more easily in cooler water than in warmer water.
Because its molecules (sodium bound ionically to chlorine) can spread out within the water (H2O) molecules. The polar water molecules attract both the sodium (positive ions) and the chlorine (negative ions). You may be interested to know that you can dissolve 34 grams of salt in 100 cm3 of water at 10 degrees C.
Diffusion -Movement of molecules(not water) from an area of higher concentration to an area of lower concentrationOsmosis -Movement of water molecules from a region of higher concentration to an area of lower concentration through a semi permeable membrane.Similarities- both move from higher to lower concentration and both are examples of passive transport