CBG Cannabigerol Professor Graeme Kilshaw 2023 -02-09 CBG was first synthesized in 1964. When isolated, CBG demonstrates a number of benefits to the human body. The human body’s endocannabinoid system (ECS) keeps the body in a balanced state of homeostasis via innumerable receptors throughout limbs, organs, nerves, and systems. A majority of patients found CBG-dominant products effective in treating their chronic pain, anxiety, and insomnia. It is an anti-inflammatory. It reduces intraocular pressure. It is a cancer inhibitor, it stimulates appetite, and it is an antibacterial. There is also a psychological effect. I personally found that the CBG helped me to make accurate measurements leading to innovation pathways and improvement pathways. CBG is an interface drug, and we aim to understand its molecules, atoms, and ions. I will briefly discuss some measurements that I started making. The main idea is that by measuring things, we can make steady improvements. We briefly discussed phase transition vapourization and ionization of CBG. We will make measurements of liquids, gasses, and plasmas. In order to understand CBG, I purchased a glass vacuum flask device for measuring the temperature and the pressure of dihydrogen monoxide aqueous (water) and the regulated CBG vapours. A beaker-shaped special flat-bottom glassware percolator bong called a scientific borosilicate glass bubbler was employed to both filter and cool the CBG. I purchased a bubbler featuring a beaker with chambers designed for cooling and filtering reactions. It became my intention to build a coupling for affixing the vaporizer to the bubbler. I attempted to utilize knowledge from a thermometer and a barometer, and these measurements became increasingly intuitive with use. I continuously checked percentages to know the dosages. The end goal was to record the chemical amount and the actual dose. Different flask devices have different cooling curves and cooling rates. I made it my purpose to measure and understand the density percentages of the CBG. There is still uncertainty, or mystery, concerning CBG gas and its ionic plasma, and specifically how it influences sleep. I can briefly get into quantum information science to actually discuss things like induced lucid dreaming. The theory states that we exist inside a kind of quantum wave function. I like to learn and teach how to apply the Schrödinger equation to gain knowledge about ions or molecular orbitals. I performed these experiments to produce a safe and therapeutic dosage of CBG for personal use. I calculated theoretical yield and measured actual yield in all the experiments. Analytic biochemistry theorizes about the molecular formula of CBG and how it relates to trace elements. It’s possible to safely measure the unsaturated hydrocarbons called terpenes that are produced by plants like yellow cedar, simply by olfaction/smell. The luminosity of the LED light on my vaporizer corresponds to the equilibrium vapour pressure. I asked the cannabis dispensary questions about viscosity, volume, vapour pressure, temperature, and how it influences the calculated dosage. Vaporizing CBG requires electricity, which can be measured in coulombs and monitored. All the factors in the experiment, and their measurement, contribute to ongoing scientific research into cannabis as medicine. In order to calculate the phase transition in the vaporizer, I applied Faraday's laws of electrolysis. I aimed to understand the desired chemical formula and state for pineal gland activation through the pathway of vapourization. The predicted melting points were 52 °C for CBG and 155°C for Δ 9 -THC. The ideal CBG gas mixes with cold water ions. Vapourization transforms the dissolved solute of a supersaturated CBG solution into a gas. The flow of positive charges enters into a polarized electrical circuit that vaporizes the CBG at a measurable temperature, creating a safe diffusion of medicine.