The result of mixing equal MASSES of water at different temperatures will be the mean of the two temperatures. Unless you are being very sophisticated and are taking the thermal expansion into account, the same will apply to volumes.
That depends on how much of each you're mixing. Good luck finding that -10 degree water.
Mixing 10 Volume developer and 40 volume developer will never make a 20 volume regardless of how much is mixed. In order to make a 20 volume, equal parts of 10 and 30 volumes will need to be mixed. Mixing 10 and 40 will make 30 volume.
That depends on whether you're mixing paint or mixing light.-- If you're mixing light, 'black' means no light at all, so the result isexactly the same green that you mix it with.-- If you're mixing paint, the result is something so yucky thatI don't even want to talk about it.
For homogeneous mixing without any change due to the pressure and also low cost.
measuring cups are used for measuring different liquids and mixing cups are for when you have some liquids that need to get mixed you mix them in it.
David did not measure the solutions' volumes before mixing the solutions.
Typical mixing have not a chemical ecuation.
To predict the density when mixing two liquids, you can use the equation for calculating the final density of a mixture: ρ_mix = (V_1 * ρ_1 + V_2 * ρ_2) / (V_1 + V_2) where ρ_mix is the final density of the mixture, ρ_1 and ρ_2 are the densities of the two liquids, and V_1 and V_2 are the volumes of the two liquids.
Mixing and temperature elevation
Mg + F2 ---> MgF2
Acids and alkali mixing
Mixing and temperature elevation
They will NOT react, so no chemical equation. (Mixing is NOT chemical, besides these two won't mix homogeneously!
30 kilometers wide
30 kilometer wide
For simplicity, take equal volumes of each, and measure which one of them has the greater mass or weight. You can even take different volumes, and just use the definition of density, as mass / volume.
The efficiency of mixing is determined by factors such as mixing speed, mixing duration, mixing equipment design, and the viscosity of the materials being mixed. Additionally, factors like temperature, ingredient particle size, and the uniformity of the mixing process can also impact mixing efficiency. The effectiveness of mixing can vary depending on how well these factors are controlled in a given mixing process.