This mass is 5,323 grams.
The mass is 5,323 g.
The atomic mass for Ge (germanium) is approximately 72.63 grams per mole.
100.2 grams. There's no loss of mass when something dissolves. If there was then you'd get what might amount to an enormous explosion caused by the loss of mass in the same way as an atomic bomb works.
The atomic mass of ekasilicon is 293.21 grams per mole. It contains 14 silicon atoms and 2 germanium atoms in its molecular structure.
To determine density, you need both the volume and mass of the object. If the volume is 195 cm3 and you know the object's mass in grams, you can divide the mass by the volume to find the density in g/cm3.
The mass is 5,323 g.
Hmm, well I can tell you that 1 cm cubed= 1 mL so the volume would be 1 mL.
To convert atoms of germanium to grams of germanium, you would need to multiply by the molar mass of germanium. The molar mass of germanium is approximately 72.63 grams per mole. This conversion factor allows you to go from the atomic scale to the macroscopic scale of grams. Simply multiply the number of atoms of germanium by 72.63 g/mol to obtain the mass in grams.
To find the mass of 10 moles of germanium, you need to multiply the molar mass of germanium by the number of moles. The molar mass of germanium (Ge) is approximately 72.63 g/mol. Therefore, the mass of 10 moles of germanium would be 726.3 grams.
The conversion factor you need for this problem is the atomic mass of germanium.72.6 gram germanium = 1 mole germaniumSince you want to end up in units of moles of Ge, this goes in the numerator (on top). You want to convert from grams Ge, so this goes in the denominator (on the bottom).grams Ge1 mole Ge = moles Ge72.6 gram Ge
The mass of 1 cm3 of silver is approximately 10.5 grams. Silver has a density of 10.5 g/cm3, so for every cubic centimeter of silver, the mass is 10.5 grams.
The atomic mass for Ge (germanium) is approximately 72.63 grams per mole.
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density = mass / volume volume of cube = 1cm x 1cm x 1cm = 1cm3 density = 0.8g / 1cm3 = 0.8g/cm3
To answer this question, you need to know the density of gold, which is 19.30g/cm3. The formula for density is: Density = mass/volume The given volume of gold is 1cm3. *1cc = 1cm3. Manipulate the density formula to find mass: mass = density x volume = 19.30g/cm3 x 1cm3 = 19.30g of gold
100.2 grams. There's no loss of mass when something dissolves. If there was then you'd get what might amount to an enormous explosion caused by the loss of mass in the same way as an atomic bomb works.
The conversion factor you need for this problem is the atomic mass of germanium.72.6 gram germanium = 1 mole germaniumSince you want to end up in units of moles of Ge, this goes in the numerator (on top). You want to convert from grams Ge, so this goes in the denominator (on the bottom).grams Ge1 mole Ge = moles Ge72.6 gram Ge