In an experiment 1.288g of copper.In another experiment 3.672 of copper oxide gave on reduction 2.938g of copper.Show that these figures verify the law of constant proportions.
Answers
SOLUTIONS:
In order to solve this problem we have to calculate the ratio of copper (Cu) and oxygen (O₂) in the two samples of copper oxide (CuO) compound. Now :
(a) In the first experiment :
Mass of Copper (Cu) = 1.03 g
Mass of Copper oxide (CuO) = 1.288 g
So, Mass of oxygen (O₂) = Mass of copper oxide (CuO) - Mass of copper (Cu)
⇒ 1.288 - 1.03
⇒ 0.258 g
Now, in the first sample of copper oxide compound :
» Mass of Copper (Cu) : Mass of Oxygen (O₂)
⇒ 1.03 : 0.258
⇒ 1.03/0.258 : 1
⇒ 3.99 : 1
⇒ 4 : 1
(b) In the second experiment :
Mass of Copper (Cu) = 2.938 g
Mass of Copper Oxide (CuO) = 3.672 g
So, Mass of oxygen (O₂) = Mass of Copper Oxide (CuO) - Mass of Copper (Cu)
⇒ 3.672 - 2.938
⇒ 0.734 g
Now, in the second sample of copper oxide compound :
» Mass of copper (Cu) : Mass of Oxygen (O₂)
⇒ 2.938 : 0.734
⇒ 2.938/0.734 : 1
⇒ 4 : 1
From the above calculations we can see that the ratio of Copper and oxygen elements in the two samples of copper oxide compound is the same 4 : 1. So, the given figures verify the law of constant proportions.
Answer:
Answer of this question is 4:1