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Why did scientists have to use other tools other than microscopes to solve the structure of DNA?
DNA is too small to visually make out the structure; even the best modern light microscopes can't see that it's a double-helical shape. However, crystallizing it, bombarding it with x-rays, and looking at the diffraction let them get a better look.Specifically, the wavelength of visible light is too big to see it.Good on you, Rosalind Franklin. (And Watson and Crick too, I GUESS)
Why did scientists have to use tools other than microscope to solve the structure of DNA?
DNA is too small to visually make out the structure; even the best modern light microscopes can't see that it's a double-helical shape. However, crystallizing it, bombarding it with x-rays, and looking at the diffraction let them get a better look.Specifically, the wavelength of visible light is too big to see it.Good on you, Rosalind Franklin. (And Watson and Crick too, I GUESS)
Why did scientist hap to use tools other than microscopes to solve the structure of DNA?
Because DNA is not visible with a light microscope. In order to visualize DNA you need to use an electron microscope. The double helix was confirmed using X-Ray diffraction by the way.
Why did scientist have to use tools other than microscopes to solve the structure of dna?
The size of DNA is way too small to be seen by a microscope. X-ray Crystallography can be used because it sends x-rays at a molecule and then the machine measures the pattern of the x-rays to construct a 3D image of the DNA molecule
Ways in which scientists answer questions and solve problems?
Scientists use the scientific method to answer questions and solve problems by making observations, forming hypotheses, conducting experiments, collecting data, and drawing conclusions. They also collaborate with other scientists to review findings and replicate experiments to ensure validity and reliability of results. Additionally, they use critical thinking and creativity to come up with new ideas and approaches to tackle complex questions.
Why did scientists have to use other tools other than microscopes to solve the structure of DNA?
DNA is too small to visually make out the structure; even the best modern light microscopes can't see that it's a double-helical shape. However, crystallizing it, bombarding it with x-rays, and looking at the diffraction let them get a better look.Specifically, the wavelength of visible light is too big to see it.Good on you, Rosalind Franklin. (And Watson and Crick too, I GUESS)
Why did scientists have to use tools other than microscopes to solve the structure of DNA?
DNA is too small to visually make out the structure; even the best modern light microscopes can't see that it's a double-helical shape. However, crystallizing it, bombarding it with x-rays, and looking at the diffraction let them get a better look.Specifically, the wavelength of visible light is too big to see it.Good on you, Rosalind Franklin. (And Watson and Crick too, I GUESS)
What problems did the discovery of a microscopes help solve?
The discovery of microscopes allowed scientists to investigate cellular structures and organisms at a level of detail that was not possible before. This led to advancements in fields such as biology, medicine, and material science. Microscopes helped solve mysteries about the building blocks of life and contributed to a better understanding of various diseases.
What problems did the discovery of microscopes help us solve?
The discovery of microscopes helped us solve problems related to understanding and visualizing the structure of cells, bacteria, and other microorganisms. It also contributed to advancements in medical research, disease diagnosis, and the development of new technologies in various fields.
Why did scientists have to use tools other than microscope to solve the structure of DNA?
DNA is too small to visually make out the structure; even the best modern light microscopes can't see that it's a double-helical shape. However, crystallizing it, bombarding it with x-rays, and looking at the diffraction let them get a better look.Specifically, the wavelength of visible light is too big to see it.Good on you, Rosalind Franklin. (And Watson and Crick too, I GUESS)
What are five jobs that were created due to the making of the microscope?
Microscope manufacturer: Companies specialized in designing, producing, and selling microscopes and related equipment. Microbiologist: Scientists who study microorganisms using microscopes to identify, classify, and understand their structure and behavior. Histotechnologist: Professionals who prepare tissue samples for microscopic examination in medical laboratories. Quality control technician: Individuals responsible for inspecting products using microscopes to ensure they meet specific standards. Forensic scientist: Experts who analyze evidence such as hairs, fibers, and blood samples under microscopes to help solve crimes.
What problems microscopes help solve?
Microscopes help solve problems related to observing and studying extremely small or microscopic objects, such as cells, bacteria, and viruses. They also aid in identifying and diagnosing diseases, studying the structure of materials at the micro-level, and advancing scientific research in various fields.
Why did scientist hap to use tools other than microscopes to solve the structure of DNA?
Because DNA is not visible with a light microscope. In order to visualize DNA you need to use an electron microscope. The double helix was confirmed using X-Ray diffraction by the way.
Scientists that study in order to solve a specific problem are called scientists?
applied
Which scientists study in order to solve a specific problem?
Applied Scientists !
A process used by scientists to find answers to questions or solve a problem?
Is a process used by scientists to find answers to questions or solve a problem
Why did scientist have to use tools other than microscopes to solve the structure of dna?
The size of DNA is way too small to be seen by a microscope. X-ray Crystallography can be used because it sends x-rays at a molecule and then the machine measures the pattern of the x-rays to construct a 3D image of the DNA molecule
