Joseph Priestley, e British chemist, was credited with the discovering oxygen in 1774. In his experiments, he generated oxygen gas by heating H g O ( s ) .The other product of the decomposition reaction is H g ( I ) . What volume of wet O 2 ( g ) is obtained from the decomposition of 1.0 g HgO(s), if the gas is collected over water at 25 ° C and a barometric pressure of 756 mmHg? The vapor pressure of water is 23.76 mmHg at 25 ° C .
Joseph Priestley, e British chemist, was credited with the discovering oxygen in 1774. In his experiments, he generated oxygen gas by heating H g O ( s ) .The other product of the decomposition reaction is H g ( I ) . What volume of wet O 2 ( g ) is obtained from the decomposition of 1.0 g HgO(s), if the gas is collected over water at 25 ° C and a barometric pressure of 756 mmHg? The vapor pressure of water is 23.76 mmHg at 25 ° C .
Solution Summary: The author explains the gaseous relation of pressure, temperature, moles of gas and volume is called ideal gas equation. The decomposition reaction of HgO is as follows:
Joseph Priestley, e British chemist, was credited with the discovering oxygen in 1774. In his experiments, he generated oxygen gas by heating
H
g
O
(
s
)
.The other product of the decomposition reaction is
H
g
(
I
)
. What volume of wet
O
2
(
g
)
is obtained from the decomposition of 1.0 g HgO(s), if the gas is collected over water at
25
°
C
and a barometric pressure of 756 mmHg? The vapor pressure of water is 23.76 mmHg at
25
°
C
.
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