One chlorine molecule has an Atomic Mass of 35.453 g/mol.
If it is diatomic, that means there are two atoms chemically bonded. Therefore:
2 * 35.453 = 70.906
Chlorine can form anions by gaining one electron to achieve a full outer shell of electrons. This extra electron gives the chlorine atom a negative charge, resulting in the formation of the chloride ion (Cl-).
There is no chlorine present in NaCl (sodium chloride). Sodium chloride is made up of sodium ions (Na+) and chloride ions (Cl-), but the element chlorine itself is not present in its elemental form in NaCl.
Volcanic activity releases carbon dioxide into the atmosphere, contributing to the greenhouse effect and global warming. However, the amount of carbon dioxide released from volcanic eruptions is much lower compared to human activities like burning fossil fuels.
The density of Bleach varies based on how much Sodium hypochlorite (Na OCl) is in the solution. The only density for bleach I know of is 1.20 grams per milliliter for 12.5% Bleach. Remember that density is how much something wieghs (grams) divided by the volume (milliliter) of that same something occupies. Volume is always ml or cl or dl or , never just m or mm or dm. Also, if you want it to be in SI, density would be in kg/m3 Finally make sure to make the difference between mm3 and ml
To find the amount of chlorine used, we need to know the molar mass of chlorine. We can use the molality to calculate the moles of chlorine in the solution. Finally, we can convert moles to grams using the molar mass of chlorine to find the grams of chlorine used.
Chlorine gas. Clorine is a diatomic molecule at normal pressure and temperature, so much like how Oxygen is normally O2, Chlorine is normally Cl2.
294.31g
... 8 ounces
One liter of liquid chlorine weighs approximately 1.45 kilograms.
A mitochondrion is much larger than an oxygen molecule. Mitochondria are organelles found within cells that generate energy, while an oxygen molecule is a diatomic molecule composed of two oxygen atoms.
Chlorine can form anions by gaining one electron to achieve a full outer shell of electrons. This extra electron gives the chlorine atom a negative charge, resulting in the formation of the chloride ion (Cl-).
No, a chlorine molecule is much smaller than the wavelength of visible light, so it cannot be seen with a standard light microscope. Special equipment like electron microscopes would be needed to visualize molecules at that scale.
There is no chlorine present in NaCl (sodium chloride). Sodium chloride is made up of sodium ions (Na+) and chloride ions (Cl-), but the element chlorine itself is not present in its elemental form in NaCl.
Diatomic nitrogen (N2) is unreactive because it has a very strong triple bond between the two nitrogen atoms, making it difficult for other substances to break apart or react with the molecule. This stability is due to the high bond energy and low reactivity of the N2 molecule.
Chlorine is not very soluble in water because chlorine is a nonpolar molecule and water is a polar solvent. Polar solvents like water are not very effective at dissolving nonpolar substances like chlorine. Additionally, the lack of strong intermolecular forces between chlorine molecules and water molecules limits the solubility of chlorine in water.
The mass of the chlorine atom is 35.5. The mass of the argon atom is 40. So you may think that the argon is more massive than chlorine. That is not correct.In a given volume of gas, at given pressure and temperature, the number of molecules are same in case of the gas. Chlorine molecule has got two atoms. The argon remains single. So the mass of chlorine molecule is 35.5*2 = 71. the mass of argon atom and molecule is 40.So the chlorine gas is much massive as compared to argon gas. The proportion goes to be 71 to 40, to be exact.
carbon and chlorine atoms bond to form chlorocarbons. The exact naming of a molecule depends upon the number of carbon and chlorine atoms involved. The simplest is called tetrachloromethane. This is made up of one carbon and 4 chlorine atoms. On another note, if we bond chlorine and fluorine atoms to a carbon then we form chlorofluorocarbons (CFCs) it is these molecule that are raved about so much with regard to greenhouse gases and ozone destruction.