For this you need the Atomic Mass of Au. Take the number of grams and divide it by the atomic mass. Multiply by one mole for units to cancel.
355 grams Au / (197.0 grams) = 1.80 moles Au
A standard can of Sprite typically contains 355 ml of beverage.
it is 355 + 250 = 605 ml
375 milliliter are 375 cubic centimeters. If you have pure water, then the weight is 375 grams. Forget syrup or oil. That weighs more.
I believe for a 12 oz can of soda it's 13.7568 oz and .8598 lb
782.641 lbs.
Balanced equation. 2H2 + O2 -> 2H2O 355 grams O2/32 grams = 11.1 moles O2 check for limiting reactant 11.1 moles O2 (2 mole H2/1 mole O2) = 22.2 mole H2 and H2 has no where near that many moles, so limits and drives reaction so, as they are one to one...... 22.2 moles of H2O are produced
There are 12.5222564745 Ounces in 355 Grams.1 Gram = 0.0352739619 Ounces355 Grams * 0.0352739619 Ounces = 12.5222564745 Ounces
There are 0.355 grams in 355 mg because there are 1000 milligrams (mg) in a gram.
About 30 grams
1.355kg
That is 1.4 cups.
Divide it by 1000 to convert into kilograms and then multiply bu 2.205 to convert into pounds.= 0.355 x 2.205 pounds
355 grams. A cubic centimeter of water has a mass of 1 gram.
The conversion from milliliters (ml) to grams (g) depends on the density of the substance being measured. For water, which has a density of 1 gram per milliliter, 355 ml would equal 355 grams. However, for other substances, you would need to know the density to make the conversion accurately.
A typical 12-ounce can of soda contains about 355 milliliters of liquid, which is equivalent to roughly 355 grams of water. Given that the molar mass of water is approximately 18 grams/mole, this means there are approximately 19.7 moles of water in a can of soda. With each mole containing approximately 6.022 x 10^23 molecules, a can of soda would contain around 1.18 x 10^25 water molecules.
Answer: 355 km = 220.586 mi.
355 cubic inches