Answer:
6 moles of electrons
Explanation:
Let us consider the species NO3− and ClO−. The NO3− is oxidized to NO the oxidation number of nitrogen is decreased from +5 to +2.
The oxidation number of chlorine is increased from +1 to +3. This implies that six electrons were transferred in the balanced reaction equation shown in the question. Hence the answer.
Answer:
m = 176.04 g .
Explanation:
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In this case, according to the mole-mass relationships, which are based off the mass of one mole of any compound via the molar mass, it is possible to realize that the molar mass of carbon dioxide is 44.01 (12.01+16*2) g/mol, and therefore, the mass in grams of 4.00 moles of this compound are calculated as shown below:
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Answer:
helium
Explanation:
remaining three are efficient gas
Answer:
The answer to your question is
a) 212.7 g
b) 110 g
Explanation:
a) Mass of three moles of Chlorine
Atomic weight of Chlorine = 35.45 g but chlorine is a diatomic molecule then the atomic weight = 2(35.45) g = 70.9 g
70.9 g of Cl₂ --------------- 1 mol
x --------------- 3 moles
x = 3(70.9)/1
x = 212.7 g
b) mass of one mole of K₂S
Molecular mass = (39 x 2) + (32 x 1)
= 78 + 32
= 110 g
110 g of K₂S ---------------- 1 mol