For the given details, it should be given the reason for the different values of k between example 8-3 and table 8-1 and value of K should be expressed in unit of atm. L. Concept introduction: Boyle’s law can be defined as, A gas kept in the particular container at constant temperature. If the container of gas is compressed, the gaseous particle is compressed and the volume of container is decreased.. That is the volume of container is inversely proportional to the pressure of gas. As increasing the pressure of a particular gas the volume of gas will reduce. This indirect relationship between the pressure and volume of gas is termed as Boyles’s law. Mathematically this law can be written as, P ∝ V PV=k Where P is pressure and k is proportionality constant.
For the given details, it should be given the reason for the different values of k between example 8-3 and table 8-1 and value of K should be expressed in unit of atm. L. Concept introduction: Boyle’s law can be defined as, A gas kept in the particular container at constant temperature. If the container of gas is compressed, the gaseous particle is compressed and the volume of container is decreased.. That is the volume of container is inversely proportional to the pressure of gas. As increasing the pressure of a particular gas the volume of gas will reduce. This indirect relationship between the pressure and volume of gas is termed as Boyles’s law. Mathematically this law can be written as, P ∝ V PV=k Where P is pressure and k is proportionality constant.
Solution Summary: The author explains Boyle's law, which is inversely proportional to the pressure of a particular gas. The value of K is expressed in the unit of atm.
For the given details, it should be given the reason for the different values of k between example 8-3 and table 8-1 and value of K should be expressed in unit of atm. L.
Concept introduction:
Boyle’s law can be defined as,
A gas kept in the particular container at constant temperature. If the container of gas is compressed, the gaseous particle is compressed and the volume of container is decreased.. That is the volume of container is inversely proportional to the pressure of gas. As increasing the pressure of a particular gas the volume of gas will reduce. This indirect relationship between the pressure and volume of gas is termed as Boyles’s law.
Mathematically this law can be written as,
P∝V
PV=k
Where P is pressure and k is proportionality constant.
Did you report your data to the correct number of significant
figures?
Temperature of cold water (°C)
4.0
Temperature of hot water ("C)
87.0
Volume of cold water (mL)
94.0
Volume of hot water (mL)
78.0
Final temperature after mixing ("C)
41.0
Mass of cold water (g)
94.0
Mass of hot water (g)
78.0
Calorimeter constant (J/°C)
12.44
How to calculate the calorimeter constant
please draw the arrows
Chapter 5 Solutions
Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition