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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)
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)
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.
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
Scientists answer questions and solve problems in various ways. Some of the common ways include research and testing various theories among others.
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)
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)
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)
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.
it helped us see tiny cells
it helped us see tiny cells
Seeing things that are smaller than you can see with a magnifying glass.
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
Is a process used by scientists to find answers to questions or solve a problem
applied
Applied Scientists !
The best reason for sharing your ideas is to find out what other scientists are working on; they may have a piece of the puzzle that will help you in your own research, and vice versa. The more scientists can share and collaborate, the more they can help to solve some of the most pressing problems facing society.