Barometer and Diffusion
Consider the following terms:
Barometer
Diffusion
Respond to the following in a minimum of 175 words:
Use the 2 terms and answer the following questions:
What familiarity and prior knowledge do you have about the term?
What does the term mean in everyday language to everyday people? Use examples to help describe your thoughts. How do people use the word?
What does the term mean in technical language to chemists?
How is the term related to the course student learning outcome: Model the behavior of gasses at the atomic level?
What are the similarities and differences between the everyday and technical meanings and uses of the term?
What impact might the similarities and differences have on your learning of chemistry concepts in this course?
Sample Solution
The term ‘barometer’ is relatively well known and can refer to a variety of different concepts. In everyday language it most commonly describes an instrument used for measuring atmospheric pressure, which is typically used as an indication of the weather. For example one may say: “It looks like it’s going to rain, I better check the barometer” Or more broadly: “I think the barometric pressure has been steadily dropping all morning so we should expect some storms later on this afternoon.”
The term diffusion is much less familiar than barometer and may be unfamiliar even in technical settings. It is used in chemistry and physics to describe the movement of particles from areas of higher concentration to lower concentration (Hilal et al., 2018). This occurs naturally through processes such as osmosis which involves molecules freely traveling between two distinct areas until equilibrium has been reached within them. For example one might say: “We observed that diffusion was happening within our experiment when we compared concentrations before and after mixing reactants together”.
Both terms are often used together when discussing atmospheric systems related with heat such as heating systems found in buildings and other structures like homes and offices People might ask questions like: “What type of heating system do you have installed in this building? Knowing what kind of pressures are maintained within these systems helps us understand how they behave under certain conditions (Liu et al., 2020). Moreover understanding concepts based on diffusing gasses or particles can also help predict their behavior based on measurements taken from its associated enthalpy value.
In conclusion, the terms barometer and diffusion are commonly employed together because they rely on each other when understanding thermodynamic processes within larger systems on both small scale and large scale operations (DeVoe et al., 2018). Modeling gases at atomic level requires knowledge about both concepts since changes in either will affect how gasses react according to their properties.
