Aerodynamics: the study of the motion of gas on objects and the forces created
Anatomy: the study of the structure and organization of living things
Anthropology: the study of human cultures both past and present
Archaeology: the study of the material remains of cultures
Astronomy: the study of celestial objects in the universe
Astrophysics: the study of the physics of the universe
Bacteriology: the study of bacteria in relation to disease
Biochemistry: the study of the organic chemistry of compounds and processes occurring in organisms
Biophysics: the application of theories and methods of the physical sciences to questions of biology
Biology: the science that studies living organisms
Botany: the scientific study of plant life
Chemical Engineering: the application of science, mathematics, and economics to the process of converting raw materials or chemicals into more useful or valuable forms
Chemistry: the science of matter and its interactions with energy and itself
Climatology: the study of climates and investigations of its phenomena and causes
Computer Science: the systematic study of computing systems and computation
Ecology: the study of how organisms interact with each other and their environment
Electronics: science and technology of electronic phenomena
Engineering: the practical application of science to commerce or industry
Entomology: the study of insects
Environmental Science: the science of the interactions between the physical, chemical, and biological components of the environment
Forestry: the science of studying and managing forests and plantations, and related natural resources
Genetics: the science of genes, heredity, and the variation of organisms
Geology: the science of the Earth, its structure, and history
Marine Biology: the study of animal and plant life within saltwater ecosystems
Mathematics: a science dealing with the logic of quantity and shape and arrangement
Medicine: the science concerned with maintaining health and restoring it by treating disease
Meteorology: study of the atmosphere that focuses on weather processes and forecasting
Microbiology: the study of microorganisms, including viruses, prokaryotes and simple eukaryotes
Mineralogy: the study of the chemistry, crystal structure, and physical (including optical) properties of minerals
Molecular Biology: the study of biology at a molecular level
Nuclear Physics: the branch of physics concerned with the nucleus of the atom
Neurology: the branch of medicine dealing with the nervous system and its disorders
Oceanography: study of the earth's oceans and their interlinked ecosystems and chemical and physical processes
Organic Chemistry: the branch of chemistry dedicated to the study of the structures, synthesis, and reactions of carbon-containing compounds
Ornithology: the study of birds
Paleontology: the study of life-forms existing in former geological time periods
Petrology: the geological and chemical study of rocks
Physics: the study of the behavior and properties of matter
Physiology: the study of the mechanical, physical, and biochemical functions of living organisms
Radiology: the branch of medicine dealing with the applications of radiant energy, including x-rays and radioisotopes
Seismology: the study of earthquakes and the movement of waves through the Earth
Taxonomy: the science of classification of animals and plants
Thermodynamics: the physics of energy, heat, work, entropy and the spontaneity of processes
Zoology: the study of animals
Anatomy: the study of the structure and organization of living things
Anthropology: the study of human cultures both past and present
Archaeology: the study of the material remains of cultures
Astronomy: the study of celestial objects in the universe
Astrophysics: the study of the physics of the universe
Bacteriology: the study of bacteria in relation to disease
Biochemistry: the study of the organic chemistry of compounds and processes occurring in organisms
Biophysics: the application of theories and methods of the physical sciences to questions of biology
Biology: the science that studies living organisms
Botany: the scientific study of plant life
Chemical Engineering: the application of science, mathematics, and economics to the process of converting raw materials or chemicals into more useful or valuable forms
Chemistry: the science of matter and its interactions with energy and itself
Climatology: the study of climates and investigations of its phenomena and causes
Computer Science: the systematic study of computing systems and computation
Ecology: the study of how organisms interact with each other and their environment
Electronics: science and technology of electronic phenomena
Engineering: the practical application of science to commerce or industry
Entomology: the study of insects
Environmental Science: the science of the interactions between the physical, chemical, and biological components of the environment
Forestry: the science of studying and managing forests and plantations, and related natural resources
Genetics: the science of genes, heredity, and the variation of organisms
Geology: the science of the Earth, its structure, and history
Marine Biology: the study of animal and plant life within saltwater ecosystems
Mathematics: a science dealing with the logic of quantity and shape and arrangement
Medicine: the science concerned with maintaining health and restoring it by treating disease
Meteorology: study of the atmosphere that focuses on weather processes and forecasting
Microbiology: the study of microorganisms, including viruses, prokaryotes and simple eukaryotes
Mineralogy: the study of the chemistry, crystal structure, and physical (including optical) properties of minerals
Molecular Biology: the study of biology at a molecular level
Nuclear Physics: the branch of physics concerned with the nucleus of the atom
Neurology: the branch of medicine dealing with the nervous system and its disorders
Oceanography: study of the earth's oceans and their interlinked ecosystems and chemical and physical processes
Organic Chemistry: the branch of chemistry dedicated to the study of the structures, synthesis, and reactions of carbon-containing compounds
Ornithology: the study of birds
Paleontology: the study of life-forms existing in former geological time periods
Petrology: the geological and chemical study of rocks
Physics: the study of the behavior and properties of matter
Physiology: the study of the mechanical, physical, and biochemical functions of living organisms
Radiology: the branch of medicine dealing with the applications of radiant energy, including x-rays and radioisotopes
Seismology: the study of earthquakes and the movement of waves through the Earth
Taxonomy: the science of classification of animals and plants
Thermodynamics: the physics of energy, heat, work, entropy and the spontaneity of processes
Zoology: the study of animals
Choose 5 sciences and prove
that they are the most important ones nowadays
In my opinion all sciences are very important and if we haven’t professionals in any field of science, our world will become worse. But even so there are some sciences which are more important than others. To my mind the most important ones are medicine, genetics, chemistry, computer science and maybe physics. I think so because all of these sciences (help us)make us healthy and strong, that ,I’m sure, is the most important for each person, and computer science and new technologies help us with different activities and work. Of course all sciences are connected with each other therefore it is hard to find the most significant ones.
ОтветитьУдалитьToday is a century of high technology. Science develops, people carry out experiments and commit scientific contributions. But the most necessary areas of science are connected with medicine, biochemistry, astrophysics, electronics and computer science, I think. Biology,medicine,chemistry are imortant to save people's lifes. And physics - astrophysics - is important because of new technologies: GPS-navigators, satellites. But nevertheless all science is necessary nowadays
ОтветитьУдалитьScience is very important nowadays. But success in these different. According to me the most important areas of science are Astrophysics, Biochemistry, Molecular Biology, Neurology and Astronomy.
ОтветитьУдалитьThe Universe is the most unknown thing in our world. And the string theory is the main theory in theoretical physics. Molecular Biology is important because of interest in infinite life. And it is clear why Neurology is important.
To begin with that medicine is an integral part of science. different modern medicine can prevent incurable diseases.New modern equipments are helps doctors cure people on the right way and to avoid complications.Also Computer Science and Electronics are very useful for our society .people create another forms of communications, new divides which make our life better.
ОтветитьУдалитьOf course everi science is important. But there are some of them, which are the most necessary today. Astronomy, computer science, chemistry, bacteriology and genetics. Astronomy plas a very huge role in discovering new planets and galaxies. Scientists want to know, is it possible to live on Mars or are there any other galaxies. Chemistry is one of the most developing branches of science. And it is perspective. Bacteriology and genetics are important for our health and for treatment of diseases. And it is impossible to work on these fields of science without computer science. Now, I'm sure, it is difficult to imagine our live without tv or computer. But every science is important.
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