Rosalind Franklin and Maurice Wilkins were studying DNA. Wilkins and Franklin used X-ray diffraction as their main tool -- beaming X-rays through the molecule yielded a shadow picture of the ...

Rosalind Franklin made a crucial contribution to ... This X-ray diffraction picture of a DNA molecule was Watson's inspiration (the pattern was clearly a helix). Using Franklin's photograph ...

Rosalind Franklin was at King's College London investigating the atomic arrangement of DNA, using her skills as an X-ray crystallographer to create images for analysis. One of her team's pictures ...

when scientist Rosalind Franklin used a process called X-ray diffraction to capture images of DNA molecules (Figure 5). Although the black lines in these photos look relatively sparse, Dr ...

A previously overlooked letter and a news article that was never published, both written in 1953, add to other lines of evidence showing Rosalind Franklin was an equal contributor — not a victim — in ...

Chances are you've seen an illustration of DNA's double-helix structure and even pictures of the chromosomes ... the double helix -- the subject of Rosalind Franklin's Photo 51.

In 1952, Rosalind Franklin was at King's College London (KCL) investigating the atomic arrangement of DNA, using her skills ... One of her team's pictures, known as Photo 51, provided the ...

Rosalind Franklin ... This showed that DNA had a helix shape. Without her knowledge, one of her colleagues showed the picture to James Watson. When he saw it, he knew that his and Francis Crick ...

Rosalind Franklin and Dorothy Hodgkin made important breakthroughs in science, including many discoveries that are vital to our lives today. Performing early X-ray analysis on the DNA molecule.