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A proton, which is the nucleus of a hydrogen atom, can be modeled as a sphere with a diameter of 2.4fm and a mass of
A proton, which is the nucleus of a hydrogen atom, can be modeled as a sphere with a diameter of
2.4fm
and a mass of
1.67\\\\times 10^(-27)kg
.\ Densities of Some Common Substances at Standard Temperature\
(0\\\\deg C)
and Pressure (Atmospheric)\ \\\\table[[Substance,
\\\ ho (k(g)/(m^(3)))
,Substance,
\\\ ho (k(g)/(m^(3)))
A proton, which is the nucleus of a hydrogen atom, can be modeled as a sphere with a diameter of 2.4fm and a mass of 1.671027kg. Densities of Some Common Substances at Standard Temperature (0C) and Pressure (Atmospheric) (a) Determine the density of the proton. Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. kg/m3 (b) State how your answer to part (a) compares with the density of ice, given the table above. A proton, which is the nucleus of a hydrogen atom, can be modeled as a sphere with a diameter of 2.4fm and a mass of 1.671027kg. Densities of Some Common Substances at Standard Temperature (0C) and Pressure (Atmospheric) (a) Determine the density of the proton. Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. kg/m3 (b) State how your answer to part (a) compares with the density of ice, given the table above
A proton, which is the nucleus of a hydrogen atom, can be modeled as a sphere with a diameter of
2.4fm
and a mass of
1.67\\\\times 10^(-27)kg
.\ Densities of Some Common Substances at Standard Temperature\
(0\\\\deg C)
and Pressure (Atmospheric)\ \\\\table[[Substance,
\\\ ho (k(g)/(m^(3)))
,Substance,
\\\ ho (k(g)/(m^(3)))
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