Temperature: In general, the conductivity of metals decreases with increasing temperature, while the conductivity of semiconductors increases with temperature.
Concentration of ions: In solutions, the conductivity is directly proportional to the concentration of ions present in the solution.
Units of conductivity:
The SI unit of conductivity is siemens per meter (S/m) or mho/m (mho is the reciprocal of ohm).
Here are some key points to focus on when studying conductivity:
Understand the concept of electric charge and its flow.
Learn about conductors, insulators, and semiconductors, and their differences in terms of conductivity.
Study the factors that affect conductivity, such as material type, temperature, and concentration of ions.
Practice calculating and converting conductivity units (S/m, mho/m).
Explore real-world applications of conductivity in various fields.
By understanding the principles of conductivity and its applications, you can gain insights into the behavior of electric currents in different materials and systems.
Implement scientific principles to design processes for monitoring and minimizing human impact on the environment (e.g., water usage, including withdrawal of water from streams and aquifers or construction of dams and levees; land usage, including urban development, agriculture, or removal of wetlands; pollution of air, water, and land).