Let the mass of the box be x grams and the mass of each bolt be y grams. From the given information, we can set up a system of equations: 20y + x = 340 and 48y + x = 760. Solving these equations simultaneously, we find that the mass of the box is 60g and the mass of each bolt is 10g.
The mass is 64.44 grams. But the difference between mass and weight is that mass is weight is how heavy it is on the planet you weigh it on and mass it the weight it is on Earth, whether is is on Earth, or not.
The mass of the solution would be the sum of the mass of the sodium chloride and the mass of water. So, the mass of the solution would be 17.8 grams (NaCl) + 217 grams (water) = 234.8 grams.
The mass of a standard Sharpie marker is approximately 9 grams.
To calculate the mass in grams of sodium sulfate, we need to know the number of moles. Once we have the number of moles, we can multiply it by the molar mass to find the mass in grams. For example, if we have 2 moles of sodium sulfate, the mass would be 2 moles * 141.98 grams/mole = 283.96 grams.
The mass is 295 grams. This is multiplication and subtraction. 9 x 238 = 2142 grams for the balls Total - ball mass = box mass 2437 - 2142 = 295 grams
Ranges from 10-50 grams. The mass of a full box is shown on the front of the box.
4 grams
30 grams
An empty box will be around 100 grams. Otherwise it will depend on the mass of cereal in the box.
100 grams
a box of cereal is 450 g in weight
12 ounces = about 340.2 grams.
About 250 grams
1 gram
The mass of a box of paperclips can vary based on the size and quantity of paperclips in the box. On average, a standard box of paperclips weighs around 100 to 200 grams.
226 grams = about 0.4982 pounds.Formula: grams / 453.6 = pounds