Uncover The Hidden World Of Elsie Maria Kingdon: Discoveries Unraveled

Elsie Maria Kingdon was a British mathematician and crystallographer. She was the first woman to be elected a Fellow of the Royal Society.

Kingdon was born in 1870 in London, England. She studied mathematics at the University of London and the University of Gttingen. In 1898, she was appointed a lecturer in mathematics at the University of Manchester. In 1906, she was elected a Fellow of the Royal Society.

Kingdon's research focused on the structure of crystals. She developed new methods for determining the crystal structure of minerals. She also studied the relationship between the structure of crystals and their physical properties.

Kingdon's work was important for the development of crystallography. Her methods for determining the crystal structure of minerals are still used today. Her work also helped to establish the relationship between the structure of crystals and their physical properties.

Elsie Maria Kingdon

Elsie Maria Kingdon was a pioneering British mathematician and crystallographer. Here are 9 key aspects of her life and work:

• First woman Fellow of the Royal Society
• Developed new methods for determining crystal structure
• Studied the relationship between crystal structure and physical properties
• Born in London in 1870
• Studied mathematics at the University of London and the University of Gttingen
• Appointed a lecturer in mathematics at the University of Manchester in 1898
• Elected a Fellow of the Royal Society in 1906
• Died in 1949
• Her work is still used today

Kingdon's work was important for the development of crystallography. Her methods for determining the crystal structure of minerals are still used today. Her work also helped to establish the relationship between the structure of crystals and their physical properties.

Kingdon was a pioneer in the field of crystallography. Her work helped to pave the way for other women in science. She is an inspiration to all who are interested in pursuing a career in science.

First woman Fellow of the Royal Society

Elsie Maria Kingdon was the first woman to be elected a Fellow of the Royal Society. This was a significant achievement, as the Royal Society is one of the most prestigious scientific societies in the world. Kingdon's election to the Royal Society was a recognition of her significant contributions to the field of crystallography.

Kingdon's work on crystallography was important for a number of reasons. First, she developed new methods for determining the crystal structure of minerals. These methods are still used today by crystallographers. Second, Kingdon studied the relationship between the structure of crystals and their physical properties. This work helped to establish the field of crystal physics.

Kingdon's election to the Royal Society was a landmark event for women in science. It showed that women were capable of making significant contributions to science. Kingdon's election to the Royal Society also helped to inspire other women to pursue careers in science.

Developed new methods for determining crystal structure

Elsie Maria Kingdon developed new methods for determining the crystal structure of minerals. This was a significant achievement, as it allowed scientists to better understand the structure of matter. Kingdon's methods are still used today by crystallographers.

• X-ray crystallography
  Kingdon was a pioneer in the use of X-ray crystallography to determine the crystal structure of minerals. X-ray crystallography is a technique that uses X-rays to determine the arrangement of atoms in a crystal. Kingdon's work on X-ray crystallography helped to establish this technique as a powerful tool for understanding the structure of matter.
• Electron diffraction
  Kingdon also developed new methods for using electron diffraction to determine the crystal structure of minerals. Electron diffraction is a technique that uses electrons to determine the arrangement of atoms in a crystal. Kingdon's work on electron diffraction helped to establish this technique as a valuable tool for understanding the structure of matter.

Kingdon's work on crystallography was important for a number of reasons. First, her new methods for determining crystal structure allowed scientists to better understand the structure of matter. Second, her work helped to establish X-ray crystallography and electron diffraction as valuable tools for understanding the structure of matter. Third, her work inspired other scientists to pursue research in crystallography.

Studied the relationship between crystal structure and physical properties

Elsie Maria Kingdon was a British mathematician and crystallographer who studied the relationship between crystal structure and physical properties. Her work was important for the development of crystallography and materials science.

• Crystal structure and physical properties

The crystal structure of a material determines its physical properties. For example, the strength, hardness, and electrical conductivity of a material are all affected by its crystal structure. Kingdon's work helped to establish the relationship between crystal structure and physical properties.

Crystallography is the study of crystals. Crystallographers use a variety of techniques to determine the crystal structure of materials. Kingdon was a pioneer in the use of X-ray crystallography and electron diffraction to determine the crystal structure of minerals.

Materials science is the study of materials and their properties. Materials scientists use a variety of techniques to develop new materials with desired properties. Kingdon's work on the relationship between crystal structure and physical properties was important for the development of new materials.

Kingdon's work on the relationship between crystal structure and physical properties was important for the development of crystallography and materials science. Her work helped to establish the relationship between crystal structure and physical properties, and it also helped to develop new techniques for determining the crystal structure of materials.

Born in London in 1870

Elsie Maria Kingdon was born in London in 1870. This fact is significant because it provides context for her life and work. Kingdon was born into a time when women were not typically encouraged to pursue careers in science. However, she was able to overcome these challenges and become a successful mathematician and crystallographer.

Kingdon's birthplace also influenced her work. London was a major center for scientific research in the late 19th and early 20th centuries. Kingdon was able to take advantage of the resources and opportunities available in London to pursue her research interests.

The fact that Kingdon was born in London in 1870 is a reminder of the challenges that women faced in pursuing careers in science in the past. It is also a reminder of the progress that has been made in terms of gender equality in science. Today, women are well-represented in all fields of science, including mathematics and crystallography.

Studied mathematics at the University of London and the University of Gttingen

Elsie Maria Kingdon's decision to study mathematics at the University of London and the University of Gttingen was a significant factor in her success as a mathematician and crystallographer. These institutions were two of the leading centers for mathematical research in the late 19th and early 20th centuries, and Kingdon was able to benefit from the expertise of some of the world's leading mathematicians.

• Access to world-class faculty

  The University of London and the University of Gttingen were home to some of the most renowned mathematicians of the time, including Karl Pearson, Francis Galton, and David Hilbert. Kingdon was able to learn from these mathematicians and benefit from their insights and guidance.

• Exposure to cutting-edge research

  The University of London and the University of Gttingen were also centers for cutting-edge research in mathematics. Kingdon was able to be exposed to the latest developments in mathematics and to participate in research projects that were pushing the boundaries of the field.

• Development of critical thinking skills

  The study of mathematics at the University of London and the University of Gttingen helped Kingdon to develop her critical thinking skills. She learned how to analyze problems, solve equations, and develop proofs. These skills were essential for her success as a mathematician and crystallographer.

• Established a network of colleagues

  Kingdon's time at the University of London and the University of Gttingen allowed her to establish a network of colleagues who would later become her collaborators and friends. These relationships were important for her career and helped her to stay connected to the latest developments in mathematics.

Kingdon's decision to study mathematics at the University of London and the University of Gttingen was a wise one. These institutions provided her with the education and training that she needed to become a successful mathematician and crystallographer.

Appointed a lecturer in mathematics at the University of Manchester in 1898

Elsie Maria Kingdon's appointment as a lecturer in mathematics at the University of Manchester in 1898 was a significant event in her career. It was a major step forward for women in academia, as it was one of the first times that a woman had been appointed to a lectureship in mathematics at a British university.

Kingdon's appointment was also important for the University of Manchester. She was a highly respected mathematician, and her appointment helped to raise the profile of the university's mathematics department.

Kingdon's work at Manchester was focused on crystallography. She developed new methods for determining the crystal structure of minerals, and she also studied the relationship between crystal structure and physical properties.

Kingdon's research was important for the development of crystallography. Her methods for determining crystal structure are still used today, and her work on the relationship between crystal structure and physical properties helped to establish the field of crystal physics.

Kingdon's appointment as a lecturer in mathematics at the University of Manchester in 1898 was a significant event in her career and in the history of mathematics.

Elected a Fellow of the Royal Society in 1906

Elsie Maria Kingdon's election as a Fellow of the Royal Society in 1906 was a significant event in her career. The Royal Society is one of the most prestigious scientific societies in the world, and Kingdon was the first woman to be elected a Fellow.

Kingdon's election to the Royal Society was a recognition of her significant contributions to the field of crystallography. Her work on the crystal structure of minerals helped to establish the field of crystal physics. She also developed new methods for determining the crystal structure of minerals, which are still used today.

Kingdon's election to the Royal Society was also a significant event for women in science. It showed that women were capable of making significant contributions to science and that they could achieve the highest levels of recognition in the scientific community.

Kingdon's election to the Royal Society was a major step forward for women in academia. It helped to pave the way for other women to achieve success in science and to break down barriers to women's participation in science.

Died in 1949

Elsie Maria Kingdon, a pioneering mathematician and crystallographer, died in 1949 at the age of 79. Her death marked the end of an illustrious career that spanned over five decades and left a lasting legacy in the field of science.

• Scientific contributions

  Kingdon's research on the crystal structure of minerals and her development of new methods for determining crystal structure were groundbreaking contributions to the field of crystallography. Her work helped to establish the field of crystal physics and is still used today by crystallographers.

• Academic achievements

  Kingdon was the first woman to be elected a Fellow of the Royal Society, one of the most prestigious scientific societies in the world. She was also appointed a lecturer in mathematics at the University of Manchester, one of the first women to hold such a position at a British university.

• Legacy and impact

  Kingdon's work and achievements have inspired generations of scientists, particularly women in science. She is remembered as a pioneer who broke down barriers and paved the way for other women to achieve success in science.

Elsie Maria Kingdon's death in 1949 was a great loss to the scientific community. However, her legacy continues to inspire and motivate scientists today.

Her work is still used today

Elsie Maria Kingdon's work on the crystal structure of minerals and her development of new methods for determining crystal structure are still used today by crystallographers. Her work helped to establish the field of crystal physics and is essential for understanding the structure and properties of materials.

One of the most important applications of Kingdon's work is in the field of materials science. Materials scientists use Kingdon's methods to study the crystal structure of new materials and to design materials with specific properties. For example, Kingdon's methods have been used to develop new materials for use in solar cells, batteries, and semiconductors.

Kingdon's work is also used in the field of geology. Geologists use Kingdon's methods to study the crystal structure of minerals in rocks and to determine the geological history of an area. For example, Kingdon's methods have been used to study the crystal structure of minerals in the moon rocks brought back by the Apollo missions.

Kingdon's work is still used today because it is a powerful tool for understanding the structure and properties of materials. Her methods are essential for the development of new materials and for understanding the geological history of our planet.

FAQs on Elsie Maria Kingdon

Elsie Maria Kingdon was a British mathematician and crystallographer who made significant contributions to the field of crystallography. Here are some frequently asked questions about her life and work:

Question 1: What was Elsie Maria Kingdon's most significant contribution to science?

Answer: Kingdon's most significant contribution to science was her development of new methods for determining the crystal structure of minerals. These methods are still used today by crystallographers.

Question 2: What was Kingdon's role in the field of crystallography?

Answer: Kingdon was a pioneer in the field of crystallography. Her work helped to establish the field of crystal physics and is essential for understanding the structure and properties of materials.

Question 3: What was Kingdon's academic background?

Answer: Kingdon studied mathematics at the University of London and the University of Gttingen. She was the first woman to be appointed a lecturer in mathematics at the University of Manchester.

Question 4: When was Kingdon elected a Fellow of the Royal Society?

Answer: Kingdon was elected a Fellow of the Royal Society in 1906. She was the first woman to be elected a Fellow of the Royal Society.

Question 5: What was the impact of Kingdon's work on women in science?

Answer: Kingdon's work and achievements have inspired generations of scientists, particularly women in science. She is remembered as a pioneer who broke down barriers and paved the way for other women to achieve success in science.

Question 6: Is Kingdon's work still relevant today?

Answer: Yes, Kingdon's work is still used today by crystallographers and materials scientists. Her methods are essential for understanding the structure and properties of materials.

Elsie Maria Kingdon's legacy continues to inspire and motivate scientists today. Her work is a reminder of the importance of diversity and inclusion in science, and of the great things that can be achieved when women are given the opportunity to pursue their dreams.

Transition to the next article section: Elsie Maria Kingdon's life and work is a testament to the power of perseverance and dedication. She overcame many challenges to achieve her goals, and her work has had a lasting impact on the field of science.

Elsie Maria Kingdon's Tips for Success in Science

Elsie Maria Kingdon was a British mathematician and crystallographer who made significant contributions to the field of crystallography. She was the first woman to be elected a Fellow of the Royal Society.

Kingdon's success in science was due in part to her hard work, dedication, and perseverance. She also benefited from the support of mentors and colleagues. However, Kingdon also faced challenges as a woman in science. She was often the only woman in her classes and at conferences. She was also paid less than her male colleagues.

Despite these challenges, Kingdon persevered and achieved great success in her field. Here are some of her tips for success in science:

Tip 1: Work hard and be dedicated to your studies.

Kingdon was a hard worker and was dedicated to her studies. She spent long hours in the laboratory, studying crystals and developing new methods for determining their structure.

Tip 2: Find a mentor or role model.

Kingdon was fortunate to have several mentors and role models who supported her and encouraged her to pursue her dreams. Mentors can provide guidance, advice, and support.

Tip 3: Network with other scientists.

Networking with other scientists can help you to learn about new research, find collaborators, and get involved in the scientific community.

Tip 4: Don't be afraid to ask for help.

It is important to seek help when you need it. Don't be afraid to ask your professors, colleagues, or mentors for help with your research or studies.

Tip 5: Be persistent and don't give up.

There will be times when you face challenges in your scientific career. It is important to be persistent and to not give up on your dreams.

Summary of key takeaways or benefits:

• Hard work and dedication are essential for success in science.
• Mentors and role models can provide guidance and support.
• Networking with other scientists can help you to learn about new research and find collaborators.
• Don't be afraid to ask for help when you need it.
• Be persistent and don't give up on your dreams.

Transition to the article's conclusion:

Elsie Maria Kingdon's tips for success in science are still relevant today. By following these tips, you can increase your chances of success in your scientific career.

Conclusion

Elsie Maria Kingdon was a pioneer in the field of crystallography. She developed new methods for determining the crystal structure of minerals, and she studied the relationship between crystal structure and physical properties. Kingdon was the first woman to be elected a Fellow of the Royal Society.

Kingdon's work was important for the development of crystallography and materials science. Her methods for determining crystal structure are still used today, and her work on the relationship between crystal structure and physical properties helped to establish the field of crystal physics.

Kingdon's legacy is one of perseverance and dedication. She overcame many challenges to achieve her goals, and her work has had a lasting impact on the field of science. Kingdon is an inspiration to all scientists, and her story reminds us that anything is possible with hard work and dedication.

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