100 the same weight of your mum
To find the volume of hydrogen gas produced, we first need to convert the mass of baking soda (645g) to moles. Then, using the balanced chemical equation for the reaction, we can determine the moles of hydrogen gas produced. Finally, using the ideal gas law at STP, we can convert the moles of hydrogen gas to liters.
Since the reaction ratio is 1:1 for hydrogen and chlorine, the amount of HCl produced will be the same as the amount of hydrogen used, which is 5.7 L. So, 5.7 liters of HCl are produced in the reaction.
To calculate the amount of hydrogen gas produced, first determine the moles of potassium from the given mass. Then, use the balanced chemical equation of the reaction between potassium and water to find the moles of hydrogen gas produced. Finally, convert the moles of hydrogen gas to liters using the ideal gas law.
The balanced equation for the reaction between Iodine and Hydrogen is: H2 + I2 --> 2HI The ratio of I2 to HI is 1:2 Therefore 1 mole of Iodine can form a maximum of 2 moles of Hydrogen Iodide
Zn + H2SO4 ---> ZnSO 4 + H2 so one mole of zinc and 1 mole of sulfuric acid produces one mole of hydrogen molecules and thus two moles of hydrogen atoms. So 0.36 moles of zinc will produce 0.36 moles of hydrogen molecules and thus 0.72 moles of hydrogen atoms.
How many moles of NH3 are produced when 1.2 mol of nitrogen reacts with hydrogen?
How many moles of NH3 are produced when 1.2 mol of nitrogen reacts with hydrogen?
8 of them with a remainder of 20
To find the volume of hydrogen gas produced, we first need to convert the mass of baking soda (645g) to moles. Then, using the balanced chemical equation for the reaction, we can determine the moles of hydrogen gas produced. Finally, using the ideal gas law at STP, we can convert the moles of hydrogen gas to liters.
10,55 moles of water are obtained.
Many metals react with strong acids to produce hydrogen gas.
Since the reaction ratio is 1:1 for hydrogen and chlorine, the amount of HCl produced will be the same as the amount of hydrogen used, which is 5.7 L. So, 5.7 liters of HCl are produced in the reaction.
N2 + 3H2 -----> 2NH3 so 3 moles of hydrogen produce 2 moles of ammonia. Therefore 12.0 moles of hydrogen will produce 8 moles of ammonia.
The molar ratio of hydrogen to ammonia in the Haber process is 3:2. Therefore, if 16 L of ammonia were produced, 24 L of hydrogen were used in the reaction.
No, when the carbon atoms in hydrocarbon molecules are bonded to as many hydrogen atoms as possible, a saturated hydrocarbon is produced. Unsaturated hydrocarbons have carbon-carbon double or triple bonds, resulting in fewer hydrogen atoms bonded to the carbon atoms.
8 of them because 8*30 = 240
For every 1 g of hydrogen burned, 9 g of water is produced. Therefore, if 100 kg (100,000 g) of hydrogen is burned, it will produce 900,000 g (or 900 kg) of water.