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Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9?
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Understanding Tungsten's BCC Structure
Tungsten (W) crystallizes in a Body-Centered Cubic (BCC) lattice, where each unit cell contains two atoms. To calculate the metallic radius, we will use the density and atomic mass of tungsten.
Given Data:
- Density of tungsten = 19.30 g/cm³
- Atomic mass of tungsten = 183.9 g/mol
Step 1: Calculate the Volume of the Unit Cell
Using the formula for density (D):
- D = mass/volume
The mass of one mole of tungsten is 183.9 g. Since there are 2 atoms in a BCC unit cell, the mass of the unit cell is:
- Mass of unit cell = 183.9 g/mol / Avogadro's number
Calculate the volume of the unit cell:
- Volume = Mass / Density = (183.9 g/mol / 6.022 x 10²³) / 19.30 g/cm³
Step 2: Calculate the Edge Length of the Unit Cell
The volume of the cubic cell (V) is given by:
- V = a³, where ‘a’ is the edge length.
From this, we can find the edge length:
- a = (Volume)^(1/3)
Step 3: Calculate the Atomic Radius
In a BCC structure, the relationship between the atomic radius (r) and the edge length (a) is given by:
- a = 4r / √3
Rearranging gives:
- r = (a * √3) / 4
Step 4: Conclusion
After calculating the edge length from the volume, you can substitute it back to find the metallic radius of tungsten. This radius represents the effective size of a tungsten atom in its metallic state.
Tungsten (W) crystallizes in a Body-Centered Cubic (BCC) lattice, where each unit cell contains two atoms. To calculate the metallic radius, we will use the density and atomic mass of tungsten.
Given Data:
- Density of tungsten = 19.30 g/cm³
- Atomic mass of tungsten = 183.9 g/mol
Step 1: Calculate the Volume of the Unit Cell
Using the formula for density (D):
- D = mass/volume
The mass of one mole of tungsten is 183.9 g. Since there are 2 atoms in a BCC unit cell, the mass of the unit cell is:
- Mass of unit cell = 183.9 g/mol / Avogadro's number
Calculate the volume of the unit cell:
- Volume = Mass / Density = (183.9 g/mol / 6.022 x 10²³) / 19.30 g/cm³
Step 2: Calculate the Edge Length of the Unit Cell
The volume of the cubic cell (V) is given by:
- V = a³, where ‘a’ is the edge length.
From this, we can find the edge length:
- a = (Volume)^(1/3)
Step 3: Calculate the Atomic Radius
In a BCC structure, the relationship between the atomic radius (r) and the edge length (a) is given by:
- a = 4r / √3
Rearranging gives:
- r = (a * √3) / 4
Step 4: Conclusion
After calculating the edge length from the volume, you can substitute it back to find the metallic radius of tungsten. This radius represents the effective size of a tungsten atom in its metallic state.
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Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9?
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Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9?.
Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Tungsten has a BCC lattice and each lattice point is occupied by one atom. Calculate the metallic radius of the tungsten atom if density of tungsten is 19.30 g/cm3 and it's atomic mass is 183.9?.
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