When more is given and to find less, what do we use?
Answers
Answer:
hope it's helpful to you
Step-by-step explanation:
moles and volume, when the temperature and pressure remains constant.
ExplanationAnswer:
Avogadro's hypothesis is:
At constant temperature and pressure, equal volumes of all gases contain same number of molecules. Thus, according to the law, for an ideal gas, there is a direct proportionality between number of moles and volume, when the temperature and pressure remains constant.
Explanation:
Avagadro's hypothesis is defined by
It is written as:
v \propto nv∝n
\frac{v}{n}=knv=k
In this expression,
n = number of moles present in the gas.
V = Volume of the gas.
k = proportionality constant.
So, when the amount of moles for a gas increases, there is proportionate increase in volume. If the quantity of moles decreases, then the volume correspondingly decreases.
From the above expression, it can thus be seen that:
\frac{V_{1}}{n_{1}}=\frac{V_{2}}{n_{2}}n1V1=n2V2
This implies that, for two different gases with equal volumes, but same conditions of temperature and pressure, the amount of the Answer:
Avogadro's hypothesis is:
At constant temperature and pressure, equal volumes of all gases contain same number of molecules. Thus, according to the law, for an ideal gas, there is a direct proportionality between number of moles and volume, when the temperature and pressure remains constant.
Explanation:
Avagadro's hypothesis is defined by
It is written as:
v \propto nv∝n
\frac{v}{n}=k
n
v
=k
In this expression,
n = number of moles present in the gas.
V = Volume of the gas.
k = proportionality constant.
So, when the amount of moles for a gas increases, there is proportionate increase in volume. If the quantity of moles decreases, then the volume correspondingly decreases.
From the above expression, it can thus be seen that:
\frac{V_{1}}{n_{1}}=\frac{V_{2}}{n_{2}}
n
1
V
1
=
n
2
V
2
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