Question

If the volume of a proton is similar to the volume of an electron, how will the densities of these two particles compare to each other?

Short answer

The density ratio of a proton to an electron can be determined by taking the ratio of their masses, since their volumes are assumed to be similar. The mass of a proton is about 1.0073 atomic mass units (u), and the mass of an electron is about 0.0005485799 u. Converting to kilograms and finding the ratio, the density of a proton is approximately 1836 times greater than the density of an electron.

Step-by-step solution

1. Finding the masses of proton and electron

We need to know the masses of a proton and an electron to compare their densities. From the atomic mass unit (u), we have the following values: Mass of proton = 1.0073 u Mass of electron = 0.0005485799 u

2. Converting the atomic mass unit (u) to kilograms

Since density is generally given in kilograms per cubic meter (kg/m³), we need to convert the mass of proton and electron from atomic mass units to kilograms. The conversion factor is 1 u = $1.66054\times {10}^{-27}$ kg. Thus, the mass of a proton in kilograms is: $1.0073\times 1.66054\times {10}^{-27}$ kg And the mass of an electron in kilograms is: $0.0005485799\times 1.66054\times {10}^{-27}$ kg

3. Finding the density ratio

Since the volumes of the proton and electron are similar, their ratios of densities can be found by taking the ratio of their masses: Density ratio (proton/electron) = $\frac{Massofproton}{Massofelectron}$ Plugging in their masses in kilograms from step 2: Density ratio (proton/electron) = $\frac{1.0073\times 1.66054\times {10}^{-27}}{0.0005485799\times 1.66054\times {10}^{-27}}$ Notice that the factor $1.66054\times {10}^{-27}$ is present in both the numerator and the denominator, so we can cancel it out. Density ratio (proton/electron) = $\frac{1.0073}{0.0005485799}$

4. Calculating the density ratio

Density ratio (proton/electron) = $1836.152$ This means that the density of a proton is approximately 1836 times greater than the density of an electron.