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Molar Mass
Moles <--> Particles
Moles <--> Mass
Mole <--> Volume
multistep
100
The molar mass of Mercury
What is 200.59 g/mol
100
The number of particles in 1.00 moles of a substance
What is 6.02x10^23
100
The mass of 4.00 moles of aluminum
What is 108 g
100
The volume of 3.00 mol hydrogen gas at STP
What is 67.2 L
100
The mass of 22.4L of carbon dioxide at STP
What is 44.0 g
200
The molar mass of Tin
What is 118.71 g/mol
200
The number of particles in 3.50 moles of a substance
What is 2.11x10^24
200
The number of moles present in 50.0 g of calcium
What is 1.24 mol
200
The number of moles contained in 179 L of neon gas at STP
What is 7.99 mol
200
The number of particles present in 30.0 g of boron
What is 1.67x10^24
300
The molar mass of Uranium
What is 238.029 g/mol
300
The number of moles when 1.23x10^23 particles are present
What is 0.204 mol
300
The mass of 8.00 moles of oxygen gas
What is 256 g
300
The volume of 16 mol argon gas at STP
What is 360 L
300
The total volume that 2.41x10^24 particles of xenon gas would have at STP
What is 89.7 L
400
The molar mass of boron trifluoride
What is 67.805 g/mol
400
The number of moles when 5.05x10^24 particles are present
What is 8.39 mol
400
The number of moles present in 250 g ammonium chloride
What is 4.7 mol
400
The number of moles contained in 470 L of krypton gas at STP
What is 21 mol
400
The mass of 1.44x10^25 molecules of oxygen gas at STP
What is 765 g
500
The molar mass of calcium hydroxide
What is 74.092 g/mol
500
The number of moles when 1.44x10^25 particles are present
What is 23.9 mol
500
The number of moles present in 100.0 g sodium phosphate
What is 0.6100 mol
500
The volume of 0.500 mol of helium gas at STP
What is 11.2 L
500
The amount of volume that 80.0 g of hydrogen gas would take up at STP
What is 889 L