Rosalind Franklin utlised X-ray diffraction; a method by which patterns and images created by the diffraction of x-radiation through a sample may be used to determine composition and structure on a molecular level.
Rosalind Franklin used x-ray diffraction to produce pictures of the DNA structure.
She died before the Nobel Prize was awarded, so she is not named on the Nobel list.
X-ray crystallography gets images that are analogous to reflections. The structure of molecules or crystals can be determined by analysing these images.
There is controversy around her work as it was shown without her knowledge to competing scientists who understood and used it to determine the structure of DNA. She died at 37 of ovarian cancer.
Rosalind conduct her work by discovering the key of DNA
The X-ray diffriction
X-ray crystallography
microscopes
The discovery of cells was found by the use of a microscope, the discovery found that all living things are made of cells.
Chargaff's realization that A = T and C = G, combined with some crucially important X-ray crystallography work by English researchers Rosalind Franklin and Maurice Wilkins, contributed to Watson and Crick's understanding of the three-dimensional, double-helical model for the structure of DNA.Watson and Crick's discovery was also made possible by recent advances in model building (the assembly of possible three-dimensional structures based upon known molecular distances and bond angles).Using cardboard cutouts representing the individual chemical components of the four bases and other nucleotide subunits, Watson and Crick shifted molecules around on their desktops, as though putting together a puzzle.
A plant will use the process of photosynthesis to make its own food.
Plants use photosynthesis to make their own food.
Rosalind Franklin was researching using X-Ray Crystallography.
The X-ray diffriction
Rosalind Franklin's main assignment at King's College in 1951 was to use X-ray crystallography to analyze the structure of DNA. Her work contributed important insights into the helical structure of DNA, which was crucial to the discovery of its double helix shape by Watson and Crick.
Rosalind Franklin was a British biophysicist. She largely contributed to the understanding of the fine molecular structures of DNA, RNA, viruses, coal, and graphite by using the method of X-ray crystallography..
Electricity. It is important today because we use electricity for almost everything.
Crick and Watson have always been very open about the fact that they used Rosalind Franklin's x-ray data to deduce the double helix model of DNA.
Los del colegio highlands nunca sabran esta respuesta aqui, para su ridicula tarea de ciencia
That is Franklin D. Roosevelt.
X-ray diffraction
A cure for diseases would be a remarkable discovery.
Rosalind Franklin made an X-ray crystallography showing a DNA molecule. Then, Watson and Crick used hers to create their own model using DNA's structure. Their model is still correct today and many people use it and look at it for reference.
The discovery of DNA employed the use of a ball and stick model of the double helix.