Question 2: The importance of physics to bioengineering. Some basic contents of organic chemistry and biodynamics in bioengineering will appear in college physics. College physics is basically a compulsory course for science and engineering. Other specialized courses will basically use the contents of college physics and calculus.
Question 3: What is the significance of bioengineering to human beings? Typical genetic engineering, including cloned organisms, genetically modified foods and genetically modified microorganisms, can be used in medicine, food and other fields. For example, many drugs are produced by specific enzymes that act on gene expression of substrates.
In addition, there are also research values at the cell level and embryo level, such as vaccine preparation, stem cell tissue culture, plant reactors and so on.
In engineering, we can study the enzyme production and fermentation conditions of microorganisms, such as high-density fermentation combined with transgenic microorganisms, so as to obtain higher output value and the application of probiotics
In the aspect of environmental transformation, the method of biological refining has also been proposed recently.
Question 4: What is the significance of the achievements of bioengineering technology? 5 points: bioengineering technology mainly includes: 1, plant cell engineering technology: plant tissue culture and plant somatic hybridization 2, animal cell engineering technology: animal cell culture, animal cell fusion, preparation of monoclonal antibodies, nuclear transfer and embryo transfer, etc. 3. Genetic engineering technology: gene splicing technology (genetic engineering) 4. Fermentation engineering technology: microbial culture.
Question 5: Regarding the article on the necessity of good physics in bioengineering, many foundations of biological analysis are based on physics.