s
AnswerThe three types of genetic engineering are:Applied genetic engineering which includes cloning and transgenesis.Chemical genetic engineering which includes genes mapping, gene interaction, and genes codingAnalytical genetic engineering which includes computer mapping.
Starting really from the roots... Math, algebra, physics (basic knowledge), some knowledge in biology/biochemistry and of course physical, organic, inorganic chemistry, quantum mechanics (probably). But don't be afraid... it's all part of the basic studies at University. JUST TO ADD TO ABOVE Quantum, very limited, depending on specialization. Main use is in inorganic chemistry, but unless your specializing in that, deep quantum is left for the physicists. Biology is not mandatory, unless you yourself would like to specialize in a biology related chemical engineering degree, such as genetic engineering. Just know your maths, physics, and of course, chemistry.
Biotechnology could combine both subject matter from medicine and from engineering. Biotechnology is based in biology. But it is often used to refere to genetic engineering. Biochemistry, organic chemistry or chemical engineering can play a part in biotechnology. A link is provided to the Wikipedia article on biotechnology. Surf on over and just read the first paragraph and see what kind of picture you come away with.
yeah of course
A marine biologist is a scientist. They study the Biology of marine life. The specific cluster would be a scientist - Biology - Fisheries. Of course as with all fields of science the cluster could be narrowed down even more or expanded to just science.
Doctors of course
AnswerThe three types of genetic engineering are:Applied genetic engineering which includes cloning and transgenesis.Chemical genetic engineering which includes genes mapping, gene interaction, and genes codingAnalytical genetic engineering which includes computer mapping.
A person passed 10+2 with phy.,chem.,biology OR agriculture,can choose Biotechnology. Biotechnology is a life science course related to the genetic matters DNA & RNA and also one can learn how the genetic matter is transferred from one generation to the other. Also one can learn the techniques like the recombinant DNA technology , Tissue culture and also Genetic engineering.
Course 6 (Electrical Engineering and Computer Science) is the most popular. Course 2 (Mechanical Engineering) is also very popular. Most students do engineering, and slightly fewer do pure science.
Starting really from the roots... Math, algebra, physics (basic knowledge), some knowledge in biology/biochemistry and of course physical, organic, inorganic chemistry, quantum mechanics (probably). But don't be afraid... it's all part of the basic studies at University. JUST TO ADD TO ABOVE Quantum, very limited, depending on specialization. Main use is in inorganic chemistry, but unless your specializing in that, deep quantum is left for the physicists. Biology is not mandatory, unless you yourself would like to specialize in a biology related chemical engineering degree, such as genetic engineering. Just know your maths, physics, and of course, chemistry.
Biotechnology could combine both subject matter from medicine and from engineering. Biotechnology is based in biology. But it is often used to refere to genetic engineering. Biochemistry, organic chemistry or chemical engineering can play a part in biotechnology. A link is provided to the Wikipedia article on biotechnology. Surf on over and just read the first paragraph and see what kind of picture you come away with.
LLB COURSE is bechalor degree in low
You need studies to apply for chemical engineering jobs like studies of principles of chemistry, biology and physics to solve problem. Some universities offer a foundation of course.
yes
Of course!
Yes of course biology is the best but chemistry nooo
i want to know about the ECE courses