Wiki User
∙ 14y ago0.2 kg = 200 grams
80.0 grams = 80.0 grams
524 mg = 0.524 grams
Total = 280.524 grams
Wiki User
∙ 14y agoTo convert the masses to the same unit, we first convert 0.2000 kg to grams (200 g), leave 80.0 g as is, and convert 524 mg to grams (0.524 g). Adding these masses together gives a total mass of 280.524 grams.
To convert 12 grams to a percentage, you need to know the total amount it relates to. If you know the total weight, divide 12 grams by the total weight and multiply by 100 to get the percentage. For example, if the total weight is 100 grams, then 12 grams is 12% of the total weight.
To determine the mass of the sand, you'll need to subtract the mass of the container (14.5 grams) from the total mass of the container with sand in it. For example, if the total mass of the container with sand is 50 grams, then the mass of the sand would be 50 grams - 14.5 grams = 35.5 grams.
You would get 21.54 units of 1.3 grams each from a total of 28 grams.
5 ppm means that there are 5 grams of solute in every 1 million grams of solution. Therefore, in a 1000-gram solution, the total mass of solute would be 0.005 grams.
To convert 0.45 grams to a percentage, you would need to know the total mass or volume of the substance in which the 0.45 grams is a part of. Once you have the total mass or volume, you can divide 0.45 grams by the total mass or volume and then multiply by 100 to get the percentage.
The total mass of the solution would be 160 grams (40 grams of copper chloride + 120 grams of water).
Three objects weighing 10g, 20g, and 20g would add up to a total of 50g.
Grams. * * * * * That is total rubbish. Grams is a measure of mass, not volume. Volume may be measured in cubic centimetres ( 1 cc = 1 millilitre) for small objects, litres for medium sized objects to cubic metres for "normal" large objects and cubic kilometres for mountains or bigger.
The expression representing the speed v of the masses after the collision can be calculated using the conservation of momentum principle, which states that the total momentum before the collision is equal to the total momentum after the collision. This can be expressed as: m1v1 + m2v2 = (m1 + m2)v, where m1 and m2 are the masses of the objects and v1 and v2 are their respective velocities before the collision.
In a system where the total momentum is zero but the kinetic energy is not zero, it means that the opposing momenta of the individual objects cancel out, resulting in a net zero momentum for the system. However, the objects can still possess kinetic energy due to their individual speeds and masses, which contribute to the overall energy of the system.
This principle was proposed by French chemist Antoine Lavoisier in the late 18th century, as part of his work on the law of conservation of mass. He demonstrated that the total mass of reactants equals the total mass of products in a chemical reaction.
total grams is required. 55% of what total quantity?
If all the carbon (3 grams) reacts with the oxygen (8 grams) to form carbon dioxide, the total mass of the carbon dioxide produced will be equal to the sum of the masses of carbon and oxygen consumed. Therefore, the total mass of carbon dioxide produced would be 3 grams (from carbon) + 8 grams (from oxygen) = 11 grams.
The mass of the whole salad would be 500 grams. This is because the law of conservation of mass states that mass cannot be created or destroyed, so the total mass of the salad is the sum of the masses of the individual fruits used in it.
To find the percentage of 130 grams relative to a total amount, you need to know the total quantity. For example, if the total amount is 500 grams, then 130 grams would be 26% (130 grams divided by 500 grams, multiplied by 100).
The total momentum before the collision is the same as the total momentum after the collision. This is known as "conservation of momentum".
The gravitational force between two objects is directly proportional to the masses of the objects. A greater mass will result in a stronger gravitational attraction between the objects. Conversely, a smaller mass will lead to a weaker gravitational force between them.