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How did the work of Rosalind Franklin affect the work of Watson and Crick?
Rosalind Franklin's X-ray diffraction images of DNA were crucial in providing key insights into the structure of DNA and played a significant role in Watson and Crick's development of the double helix model. Her data helped Watson and Crick confirm their hypothesis and ultimately led to the discovery of the DNA structure.
How does diffraction affect the image produced by a telescope?
Diffraction occurs even in the best telescopes. The appearance of a star should be a dot with any amount of magnification, but under high magnification the star appears as a small disk with circular rings round it. The diameter of the disk does not indicate the size of the star but the size of the telescope's main lens, and a larger lens gives a smaller disk. Diffraction places a limit on the telescope's ability to separate the images of close double stars. The cloeset double stars can be viewed only with the largest telescopes.
Velocity of ultrasonic wave using acoustic grating?
The ultrasonic waves generated with the help of a quartz crystal inside the liquid in a container sets up standing wave pattern consisting of nodes and anti-nodes. The nodes are transparent and anti-nodes are opaque to the incident light. In effect the nodes and anti-nodes are acts like grating(a setup of large number of slits of equal distance) similar to that of rulings in diffraction grating. It is called as acoustic grating or aqua grating. Hence, by using the condition for diffraction, we can find the wavelength of ultrasound and thereby the velocity of sound in the liquid medium.
How does Birmingham weather affect the Watson children's choice of activities?
its kind of obvious it depends i what seson it is you dont want to go swimming when its winter or make it ssnow in summer it pretty much depends on the season , what im getting at is.. just write it depends on ehat season but also use your own words
Who does a wildfire affect and why?
who does a wildfire affect and why
How did rosalind franklins x-ray diffraction affect the work of Watson and crick?
Rosalind Franklin used x-ray crystalography to receive pictures of the DNACrick and Watson then used the photo to determine that that the structure of DNA was a double helix - hoped that help :)
How did the work of Rosalind Franklin affect the work of Watson and Crick?
Rosalind Franklin's X-ray diffraction images of DNA were crucial in providing key insights into the structure of DNA and played a significant role in Watson and Crick's development of the double helix model. Her data helped Watson and Crick confirm their hypothesis and ultimately led to the discovery of the DNA structure.
How did Rosalind Franklin evidence affect the work of Watson and Crick?
Rosalind Franklin drew a picture of a DNA molecule and it does not like similar to Watson and Crick's DNA diagram. Rosalind Franklin was smarter than them. It was used to determine the physical structure of DNA.
How Watson and crick affect health?
How watson and crick affect health?
What are the two factors that affect diffraction?
The two factors that affect diffraction are the wavelength of the waves and the size of the obstacle or opening through which the waves pass. Smaller wavelengths and larger obstacles lead to more pronounced diffraction effects.
Does the intensity of light affect the diffraction pattern?
Yes, the intensity of light can affect the diffraction pattern. A higher intensity can result in a more pronounced diffraction pattern with increased visibility of interference fringes. Similarly, a lower intensity can lead to a dimmer diffraction pattern with less distinct fringes.
How does diffraction affect sound waves?
Important parts of our experience with sound involve diffraction. The fact that you can hear sounds around corners and around barriers involves both diffraction and reflection of sound.
How does frequency of a wave affect diffraction?
As the frequency of a wave decreases, the diffraction of the wave increases. Lower frequency waves have longer wavelengths, which makes them more prone to diffraction around obstacles. Conversely, higher frequency waves, with shorter wavelengths, exhibit less diffraction.
How wave length affect diffraction?
Shorter wavelengths result in greater diffraction as they interact more strongly with obstacles in their path. On the other hand, longer wavelengths exhibit less diffraction due to their lower interaction with obstacles. This relationship is defined by the principle that the amount of diffraction is inversely proportional to the wavelength of the wave.
What two things that can affect the amount of diffraction of a wave?
The amount of diffraction of a wave is affected by the wavelength of the wave and the size of the obstacle or opening it encounters. Waves with longer wavelengths exhibit more diffraction, and smaller obstacles or openings lead to more diffraction of the wave.
How does the wavelength of the wave affect the amount of diffraction?
The wavelength of a wave directly influences the amount of diffraction. Longer wavelengths lead to more pronounced diffraction effects, resulting in greater bending of the wave around obstacles and corners. Shorter wavelengths result in less diffraction and more directional propagation.
How does a diffraction grating affect white light?
A diffraction grating separates white light into its component colors by bending and spreading the light waves. This creates a spectrum of colors, similar to a rainbow.
