The answer is 50,38349e+23 atoms.
There are approximately 0.907 kg of sugar in 2 lbs.
To find the number of atoms in a 0.582 kg sample of SiO2 (silicon dioxide), first calculate the number of moles in the sample. The molar mass of SiO2 is approximately 60.08 g/mol. Thus, 0.582 kg (or 582 g) of SiO2 corresponds to about 9.68 moles. Since each molecule of SiO2 contains 3 atoms (1 silicon and 2 oxygen), the total number of atoms is approximately 9.68 moles × 3 atoms/molecule × 6.022 × 10²³ molecules/mole, resulting in about 1.74 × 10²⁴ atoms.
2 atoms
Being a fissionable material plutonium is used as nuclear fuel in nuclear power reactors or as an explosive in nuclear weapons. The nuclear fission release a formidable quantity of energy.
There are 6 atoms in the compound H2C2O2: 2 hydrogen (H) atoms, 2 carbon (C) atoms, and 2 oxygen (O) atoms.
Approx. 2 x 6,2 kg plutonium-239 for Trinity and Fat Man bombs.
Approx. 10 kg of plutonium 239.
The World War 2 MK-III used 6.2 kg of plutonium. Smaller amounts of plutonium are possible using better explosives than the MK-III used and/or a levitated core design is used and/or if deuterium and/or tritium are added as a fusion boosting agent.
There are approximately 0.907 kg of sugar in 2 lbs.
2,000 kg
400 kg
Mass of 1 hydrogen atom = 1.67 × 10−27 kgMass of sun = 2 x 1030 kgSo the ratio of the mass of the sun to that of a H atom= (2 x 1030) / (1.67 × 10−27)= (2 / 1.67) x (1030 / 10−27)= 1.2 x 1057If the sun were entirely composed of H atoms, this would be the number of H atoms in the sun.
The charge on the plutonium atom in Pu2O5 is +6. This is because each oxygen atom in Pu2O5 has a charge of -2, and the overall compound is neutral, so the charge on the plutonium atom must be +6 in order to balance out the -4 charge from the two oxygen atoms.
There are 2,000 grams in 2 kilograms.
it would be 2 L not 2 Kg
To find the number of atoms of oxygen in 12.3 kg of carbon dioxide, you would first convert 12.3 kg to grams (12.3 kg = 12,300 g). Then, use the molar mass of carbon dioxide (CO2) to calculate the number of moles of CO2. From the chemical formula CO2, you know that there are 2 atoms of oxygen in each molecule of CO2. Finally, use Avogadro's number (6.022 x 10^23) to calculate the number of oxygen atoms in 12.3 kg of carbon dioxide. In summary, the number of atoms of oxygen in 12.3 kg of carbon dioxide can be found by: Converting 12.3 kg to grams (12,300 g). Calculating the number of moles of CO2 using the molar mass of CO2. Knowing there are 2 oxygen atoms in each CO2 molecule. Using Avogadro's number to determine the total number of oxygen atoms in 12.3 kg of carbon dioxide.
To find the number of atoms in a 0.582 kg sample of SiO2 (silicon dioxide), first calculate the number of moles in the sample. The molar mass of SiO2 is approximately 60.08 g/mol. Thus, 0.582 kg (or 582 g) of SiO2 corresponds to about 9.68 moles. Since each molecule of SiO2 contains 3 atoms (1 silicon and 2 oxygen), the total number of atoms is approximately 9.68 moles × 3 atoms/molecule × 6.022 × 10²³ molecules/mole, resulting in about 1.74 × 10²⁴ atoms.