ermmm 65 percent
To calculate the weight of the liquid, you can use the formula: Weight = Volume x Density. Given that the volume is 25 ml and the density is 1.1 g/ml, the weight of the liquid would be 25 ml x 1.1 g/ml = 27.5 grams.
The mass number of an isotope is the sum of its protons and neutrons. In this case, the isotope of chlorine has 25 protons and 17 neutrons. Therefore, the mass number is 25 + 17 = 42. Thus, the mass number of this isotope of chlorine is 42.
25 mg of liquid =
Chlorine is a gas at room temperature and pressure. Its melting point is −101.5 °C while its boiling point is −34.04 °C. So at 25 °C, it would be in the gaseous state.
They use a number called a mole. This many atoms of an element equals its atomic weight in the periodic table. Molecular weight is the sum of atomic weight. Silver has an atomic weight of 108 grams/mole and Chlorine is 35.4 grams/mole. This makes AgCl 108 + 35.4 = 143.4 grams/mole. The % Chlorine is the atomic weight of Chlorine divided by the molecular weight of AgCl. 1 mole of AgCl would contain 35.4 grams / 143.4 grams = 25% Chlorine by weight. 1.22 grams AgCl would contain (0.25)*(1.22) = 0.30 grams of Cl. To find the Chlorine in the unknown, divide the weight of Chlorine from the experiment by the initial weight of the unknown. 0.30 grams / 0.63 grams = 0.48 = 48% Cl by weight.
5.1 lb
10kg
The three isotopes of chlorine are chlorine-35, chlorine-37, and chlorine-36. The difference between them is in their atomic mass, with chlorine-35 being the most abundant at around 75%, followed by chlorine-37 at about 25%, while chlorine-36 is a rare radioactive isotope.
Does not convert; milligrams (mg) and grams (g) are measures of weight or mass and mL (milliliters) is a measure of volume.
Well, the CI atomic number is 17. The atomic mass is 35.4527 amu.There are two stable isotopes of chlorine with relative mass numbers 35 and 37. As the relative abundance of these isotopes are 75% and 25% respectively, the molar mass of chlorine is considered as 35.5 g/mol.
Vinegar is a liquid at temperatures around 25 degrees celcius.
Density is a calculated value, it is not determined a from any specific volume. It is usually reported as gm/cm3. Assume you have 25 ml of a liquid. A ml equals 1 cm3. The liquid is weighed and found to have a weight of 25 gm. There are fine points about whether this is a weight of 25 gm or mass of 25 gm, but assume this was weighed on an equal arm balance so the terms are equivalent. Most commonly density is the number of gms of material in 1 cm3 (gm/cm3). Since 25 cm3 weighs 25 gm the density is 25gm/25 cm3 or 1 gm/cm3. Some industrial users may use kg/m3. For gases the process is similar, but the answer is usually adjusted to some standard of temperature and pressure.