my understanding is drinking alcohol would be better to slurry the cannabis for one week replacing dry ice as needed. anyone got more info?
Normal response to increased body temperature is sweating by sweating . It results in lowering of temperature .
Decrease because particles will move slower causing less collisions.
lowering the temperature
It will increase. Density is mass/volume. Mass remains constant since no matter is entering or escaping. Lowering the temperature decreases the volume. Same mass in a smaller space= increased density.
Depends on the other conditions. If the volume remains constant, the density will remain the same (but the pressure will increase). If the pressure remains constant, the volume will increase - and therefore the density (mass / volume) will decrease.
Lowering the temperature the viscosity is higher.
Decrease the temperature, if aqueous. Increase the pressure.
Normal response to increased body temperature is sweating by sweating . It results in lowering of temperature .
If you are talking about the solubility of gasses in a liquid then lowering the temperature will increase the solubility of the gas
-increase the temperature of the super heated steam -lowering the condensing pressure -increasing the boiler pressure (Reheating, regeneration...)
Decrease because particles will move slower causing less collisions.
Relative lowering of vapour pressure is function of pressure of pure liquid and pressure of solutions when you increase temperature both the values increase and compensate the increase value, According to the Raoult's law, Psolvent = Xsolvent Po where Psolvent is the vapour pressure of the liquid solution, Xsolvent is its mole fraction in the solution and Po is the pure vapour pressure.
Relative lowering of vapour pressure is function of pressure of pure liquid and pressure of solutions when you increase temperature both the values increase and compensate the increase value, According to the Raoult's law, Psolvent = Xsolvent Po where Psolvent is the vapour pressure of the liquid solution, Xsolvent is its mole fraction in the solution and Po is the pure vapour pressure.
Each enzyme has its' own "perfect" temperature. This varies with the enzyme, the substrate and the environment. In most cases, increasing the temperature above the normal will increase the rate up to a point. Lowering the temperature will slow it down.
Current is proportionally inverse to resistance and when the voltage is fixed, lowering resistance will increase the current
Each enzyme has its' own "perfect" temperature. This varies with the enzyme, the substrate and the environment. In most cases, increasing the temperature above the normal will increase the rate up to a point. Lowering the temperature will slow it down.
lowering the temperature