Oxygen, O 2 , dissolves quite well within a class of com-pounds known as liquid perfluorocarbons—so well that oxy-generated perfluorocarbons can be inhaled in a liquid phase. as is demonstrated by the rodent shown below the water bound goldfish. Do you suppose perfluorocarbon molecules are polar or nonpolar? Why would the rodent drown if it were brought up to the water layer, and why would the gold fish die if they swam down into the perfluorocarbon layer? How might perfluorocarbons be used to dean our lungs or serve as an artificial blood? When is it acceptable to sacri-fice the lives of animals for scientific research?
Oxygen, O 2 , dissolves quite well within a class of com-pounds known as liquid perfluorocarbons—so well that oxy-generated perfluorocarbons can be inhaled in a liquid phase. as is demonstrated by the rodent shown below the water bound goldfish. Do you suppose perfluorocarbon molecules are polar or nonpolar? Why would the rodent drown if it were brought up to the water layer, and why would the gold fish die if they swam down into the perfluorocarbon layer? How might perfluorocarbons be used to dean our lungs or serve as an artificial blood? When is it acceptable to sacri-fice the lives of animals for scientific research?
Oxygen,
O
2
, dissolves quite well within a class of com-pounds known as liquid perfluorocarbons—so well that oxy-generated perfluorocarbons can be inhaled in a liquid phase. as is demonstrated by the rodent shown below the water bound goldfish. Do you suppose perfluorocarbon molecules are polar or nonpolar? Why would the rodent drown if it were brought up to the water layer, and why would the gold fish die if they swam down into the perfluorocarbon layer? How might perfluorocarbons be used to dean our lungs or serve as an artificial blood? When is it acceptable to sacri-fice the lives of animals for scientific research?
air is pushed steadily though a forced air pipe at a steady speed of 4.0 m/s. the pipe measures 56 cm by 22 cm. how fast will air move though a narrower portion of the pipe that is also rectangular and measures 32 cm by 22 cm
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.
The Laws of Thermodynamics, Entropy, and Gibbs Free Energy; Author: Professor Dave Explains;https://www.youtube.com/watch?v=8N1BxHgsoOw;License: Standard YouTube License, CC-BY