An element having atomic mass 63.1 g/mol...

An element having atomic mass 63.1 g/mol has face centered cubic unit cell with edge length `3.608 xx 10^(-8)` cm. Calculate the density of unit cell [Given `N_(A) = 6.022 xx 10^(23)` atoms/mol].

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(a) Calculate packing efficiency in simple cubic lattice. (b) An element having atomic mass 63.1 g/molhas face centred cubic unit cell with edge length 3.608 xx 10^(-8) cm . Calculate the density of unit cell. [Given : N_A = 6.022 xx 10^(23) atoms/mol)

(a) Calculate packing efficiency in simple cubic lattice. (b) An element having atomic mass 63.1g // mol has face centred cubic unit cell with edge length 3.608 xx 10^(-8) cm . Calculate the density of unit cell. [Given N_(A)=6.022 xx1023 atoms//mol] .

An element having atomic mass 63.1 g/mol has face centred cubic unit cell with edge length 3.608xx10^(-8)cm . Calculate the density of unit cell. [Given : NA=6.022xx1023" atoms/mol" ].

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An element having atomic mass 107.9 g mol^(-1) has FCC unit cell. The edge length of the unit cell is 486 pm. Calculate the density of the unit cell.

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An element with density 2.8 g cm^(-3) forms a fcc unit cell with edge length 4 xx 10^(-8) cm. Calculate the molar mass of the element. (Given : N_(A) = 6.022 xx 10^(23) mol^(-1) )

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(a) Calculate the packing efficiency in F.C.C. cubic lattice. (b) Calcium metal crystallises in face centered cubiv lattice with edge length of 0.556 nm. Calculate the density of the metal. [Atomic mass of calcium 40 g/mol. N_(A) = 6.022 xx 10^(23) atoms/mol.]

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OSWAAL PUBLICATION-II PUC TOPPER'S ANSWER MARCH - 2017-Part - D

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