Gold has a density of 19.3 g/cm3. What is the mass, in kilograms, of one cubic meter of gold?
Answers
The mass of one cubic meter of gold is 19,300 kilograms.
We can use the specified density and the following formula to determine the mass of one cubic meter of gold:
Mass = Density × Volume
Given:
Density of gold = 19.3 g/cm³
Remember that when converting from cubic centimeters to cubic meters, 1 cubic meter is equal to 1,000,000 cubic centimeters.
Density = Mass / Volume
Mass = Density × Volume
Volume = 1 cubic meter = 1,000,000 cubic centimeters
Density = 19.3 g/cm³
Mass (grams) = Density × Volume = 19.3 g/cm³ × 1,000,000 cm³ = 19,300,000 g
For converting grams to kilograms, divide by 1000:
Mass (kilograms) = 19,300,000 g / 1000 = 19,300 kg
Therefore, the mass of one cubic meter of gold is 19,300 kilograms.
Learn more about density, here:
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Answer:
Explanation:
Question:
Gold has a density of
19.3
g
/
c
m
3
.
What is the mass, in kilograms, of one cubic meter of gold?
Density:
The density of an object is a quantity derived from the relation between mass (fundamental quantity) and volume (derived quantity). No matter the size of the object, its density will be the same because it is a constant property that is only varied when changing the mass or volume of the object. There are other factors that affect density such as temperature and pressure.
Data:
Volume:
V
=
1
m
3
Density:
ρ
=
19.3
g
c
m
3
Equation:
The equation to find the mass of the gold is given...
See full answer below.
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The molarity of the solution is the ratio of moles of solute to the volume of the solution in L. The molar mass of sodium carbonate is 106 g/mol and molarity is 0.167 M.
What is molar mass?
Molar mass is the mass of the compound that is given by the addition of the atomic mass of the individual atom present in the compound with respect to their stoichiometry coefficients.
The molar mass (M) of sodium carbonate can be given as,
Here mass of sodium = 23, carbon = 12 and oxygen = 16
Substituting values of the atomic mass we get:
Hence, the molar mass of sodium carbonate is 106 g/mol.
Now molarity of sodium carbonate can be estimated as:
Therefore, 106 g/mol is the molar mass and 0.16 M is the molarity of sodium carbonate.
Learn more about molar mass and molarity here:
=2(23)+12+3(16)
=46+12+48
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placing the products in an ice bath
Answers
Answer:
placing the reactants on a hot plate
Explanation:
If the temperature goes up, the reaction rate will increase. Because the particle will move faster and makes the kinetic energy larger.
Answers
There are 0.154 moles of atoms in 2.00 g of carbon-13.
Further Explanation:
Moles, Atomic mass and Molecular mass
- 1 mole of a pure substance contains a mass that is equal to the relative atomic mass or molecular mass of the substance.
- Therefore; molar mass is given as grams per mole of a substance
Hence;
Molar mass = mass of a substance/ Number of moles
g/mol = g /mole
Thus;
- M = m/n; where M is the molar mass, m is the mass and n is the number of moles
- From this relationship we can therefore, calculate mass by multiplying the number of moles by molar mass of a substance.
That is; Mass = moles x molar mass
- To calculate number of moles;
We have; n = m/M
Number of moles = Mass of the substance/ Molar mass
- In our case;
Mass = 2 g of Carbon-13
Molar mass = 13.0 g/mol
Since; Number of moles = Mass/ molar mass
Thus;
Moles = (2.0 g)/ (13.0 g/mol)
= 0.154 moles
Keywords: Moles, Molecular mass, relative atomic mass
Learn more about:
- Relative atomic mass: brainly.com/question/11096711
- Moles calculation: brainly.com/question/9709257
- Molar mass: brainly.com/question/8992028
Level: High school
Subject: Chemistry
Topic: Moles
Sub-topic: Moles, molecular mass and mass of a pure substance.
Answers
Answer:
u
Explanation:
Answers
Answer:
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Explanation:
Hello,
Even when the wave power is beneficent towards the environment care, it has a notable disadvantage when high energy waves are took by the energy stations by cause of electrical failures which lead to the station breakdown. On the other hand, there are hard-to-access areas in the ocean which restricts the enforcement of this type of energy.
Best regards.