(rho/potential_density) = (p/reference pressure)^(1/gamma) where gamma is the ratio of specific heats Cp/Cv = 1.40.
The half equation for the reduction of carbon dioxide to methanoic acid and its standard electrode potential value is given as: CO2 + 2H+ + 2e- gives HCOOH EO = -0.11 V The half equation for the reduction of ACIDIFIED potassium manganate(VII) and its standard electrode potential value is given as: MnO4- + 8H+ + 5e- gives Mn2+ + 4H2O EO = +1.51 V Thus, the standard electrode potential E for the overall reaction is: E = 1.51 - (-0.11) = +1.62 V Since it is positive (and well positive), the oxidation of methanoic acid by potassium manganate(VII) can take place under standard conditions. The overall equation (obtained by balancing the number of electrons) is: 2MnO4- + 6H+ + 5HCOOH gives 2Mn2+ + 8H2O + 5CO2
Density isn't affected by elevation. Density = Mass/Volume Therefore elevation has no factor in density.
density-independent
density=mass/volume
Yes, hydrogen can be considered to have a low density. In fact, it is the least dense of all the elements.
density = mass/volume
density = mass / volume
Density = Mass / Volume
Density is calculated by dividing the mass of an object by its volume. Mathematically, the equation for density is density = mass/volume.
The simple scalar method of calculation is to integrate the square of the radius (r) across dm, where m is the mass. (Integral r2 dm is the equation, but we don't have an integral sign here.) Use the link to Wikipedia for the rest of the information and expansions on the "basic" equation.
density = mass/volume
frequency density = frequency/group width
let A be the Vector potential and Q as the scalar potential
Assuming you mean density, you might be referring to the definition of density: density = mass / volume
The principle of density was discovered by Archimedes. To calculate density, we use the equation Density = mass/volume.
D=m/V density = mass divided by volume
density = mass / volume