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babemagnetics
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In the Nuclear Magnetic Resonance, do the applied magnetic and electromagnetic fields correspond linearly to the heat generated? If not, how do they vary?
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Mike H said:If it is spin-1/2 or greater, then it - at least in principle - will be possible to use it in NMR experiments.
And yes, people can and do NMR experiments with copper. See, for example -
http://www.pascal-man.com/periodic-table/copper.shtml
Mike H said:See here -
http://www.webelements.com/copper/isotopes.html
Copper-63 and copper-65 are the naturally occurring isotopes, so in any copper-containing sample that has not been subjected to isotope enrichment, you will have a mix of these two according to the stated natural abundances.
NMR Heat Variance is a phenomenon that occurs when there is a difference in the amount of heat generated between two samples under the influence of magnetic and electromagnetic fields.
NMR Heat Variance is caused by the differences in the magnetic and electromagnetic properties of the two samples. This can be due to variations in the chemical composition, temperature, or external factors such as the strength of the magnetic field.
NMR Heat Variance can be measured by using a technique called Nuclear Magnetic Resonance (NMR). This involves exposing the samples to a strong magnetic field and measuring the difference in heat generated between the two samples.
The study of NMR Heat Variance has various applications in different fields such as chemistry, material science, and medicine. It can help in identifying the composition and structure of substances, studying chemical reactions, and detecting diseases in the human body.
Yes, NMR Heat Variance can be controlled or manipulated by adjusting the strength and orientation of the magnetic and electromagnetic fields. This allows for precise measurements and can be useful in various research and industrial applications.