Summary of Equipo de resonancia magnética nuclear UTPL

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The YouTube video "Equipo de resonancia magnética nuclear UTPL" introduces the 400 megahertz nuclear resonance magnetometer, which is an important tool for structural analysis and molecular resonance. The purpose of the machine is to determine the magnetic fields of materials, and it is a tube that is mainly used in an NMR machine. The machine has a length of 17.5 cm and a diameter of 5 mm, and must be very clean and free of cracks. Once the samples are entered the laboratory, certain conditions must be met, such as the date of entry, number of sample, and the name of the researcher and the name of the plant. The amount of sample required must also be stated. The experiments to be run are also noted. Lastly, it is important that the researcher indicate when they will work with us by signaling us with a certain code.

  • 00:00:00 This video introduces the 400 megahertz nuclear resonance magnetometer, which is an important tool for structural analysis and molecular resonance. The magnetic resonance technique is based on the fact that certain nuclei rotate around their own axis. This movement creates weak magnetic fields, which can be determined as small electric fields. The equipment is designed to work between 17 and 26 degrees Celsius, with a humidity range of 20 to 80 percent. It is important to note that the air pressure used in this equipment is also important, as it helps to inject and expel the sample. Additionally, the machine needs to be kept afloat with the help of an anti-vibration system. Additionally, certain people who have metal implants or metal braces should not approach the equipment, as this could cause a problem. It is also not recommended for people to get close to the equipment with metal objects, as these objects could be attracted to the machine. It is also not recommended to take photos or record videos of the machine with digital cameras. Finally, to keep the equipment in optimal conditions, two things are important: the levels of evaporation and the percentages of criogenic gases. This machine mainly uses helium and nitrogen gas, which can be less than 5 percent of each while nitrogen gas levels can be
  • 00:05:00 This video is about a nuclear resonance magnetometer, also known as a nuclear magnetic resonance machine (NMR). This machine is used to measure the magnetic fields of materials. It is a tube that is mainly used in an NMR machine. This machine has a length of 17.5 cm and a diameter of 5 mm. It must be very clean and free of cracks. The cover of the tube must be fit tightly. The resonance filters must be properly installed and the pipette must be sterile. Once the samples are entered the laboratory, certain conditions must be met, such as the date of entry, number of sample, and the name of the researcher and the name of the plant. The amount of sample required must also be stated. The experiments to be run are also noted. Lastly, it is important that the researcher indicate when they will work with us by signaling us with a certain code. We then prepare the samples with a solvent of varied chain lengths. These solvents are expensive and we cannot use them here to test them. Instead, we usually dilute the sample with water and then use a pipette to transfer it to the magnetic field of the machine. After the samples are diluted, we clean the machine with a cloth. We then place the
  • 00:10:00 This video shows how a nuclear magnetic resonance (NMR) machine works. Once the tube has been placed, the computer is used to run a series of experiments once the sample has been placed in the machine. The sample is then inserted and new studies are created, with the important spaces being named and filled in. The sample's name is then put into the machine, and a test is run. If the experiment requires a spectrum, the spectrum is determined according to the window's width and height, and the number of stands is chosen. In our case, we have 16 stands. The time is then shown, and the experiment is started. If additional experiments are desired, they can be inserted, or a pre-run test can be performed. The machine is then set to work on the experiment, and the researcher begins to work alongside it. A software program called BN MNJ Version 3.0 is used to obtain spectra. According to tables, the researcher determines the molecular structure and makes a chemical displacement movement. The researcher then looks at the spectra and makes a determination about the molecular structure. This is all that I can say about our nuclear magnetic resonance machine.

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