Crystal Lattices and Unit Cells
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CHXII01:THE SOLID STATE

318766 The lattice site in a pure crystal cannot be occupied by

1 Molecule
2 Ion
3 Electron
4 Atom
CHXII01:THE SOLID STATE

318767 Consider the following characteristics of a crystal lattice.
I. Each point in a lattice is called lattice point.
II. Each point in a lattice represents one constituent particle (atom, molecule or ion).
III. Lattice points are joined by straight lines to bring out the geometry of the lattice.
Which of the above statement(s) is/are true ?

1 I and II
2 II and III
3 I and III
4 I, II and III
CHXII01:THE SOLID STATE

318768 Maximum possible number of two dimensional and three dimensional lattices are respectively

1 5 and 13
2 5 and 14
3 7 and 14
4 14 and 4
CHXII01:THE SOLID STATE

318769 Choose the correct statements:

1 There are five Bravais lattices in three dimensions.
2 There are four Bravais lattices in two dimensions.
3 Equivalent points in unit cells of a periodic lattice do not lie on a Bravais lattice.
4 Equivalent points in unit cells of a periodic lattice lie on a Bravais lattice.
CHXII01:THE SOLID STATE

318770 Coordination number of a body centred cubic is

1 6
2 8
3 10
4 12
NEET DIGITAL LIBRARY
CHXII01:THE SOLID STATE

318766 The lattice site in a pure crystal cannot be occupied by

1 Molecule
2 Ion
3 Electron
4 Atom
CHXII01:THE SOLID STATE

318767 Consider the following characteristics of a crystal lattice.
I. Each point in a lattice is called lattice point.
II. Each point in a lattice represents one constituent particle (atom, molecule or ion).
III. Lattice points are joined by straight lines to bring out the geometry of the lattice.
Which of the above statement(s) is/are true ?

1 I and II
2 II and III
3 I and III
4 I, II and III
CHXII01:THE SOLID STATE

318768 Maximum possible number of two dimensional and three dimensional lattices are respectively

1 5 and 13
2 5 and 14
3 7 and 14
4 14 and 4
CHXII01:THE SOLID STATE

318769 Choose the correct statements:

1 There are five Bravais lattices in three dimensions.
2 There are four Bravais lattices in two dimensions.
3 Equivalent points in unit cells of a periodic lattice do not lie on a Bravais lattice.
4 Equivalent points in unit cells of a periodic lattice lie on a Bravais lattice.
CHXII01:THE SOLID STATE

318770 Coordination number of a body centred cubic is

1 6
2 8
3 10
4 12
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CHXII01:THE SOLID STATE

318766 The lattice site in a pure crystal cannot be occupied by

1 Molecule
2 Ion
3 Electron
4 Atom
CHXII01:THE SOLID STATE

318767 Consider the following characteristics of a crystal lattice.
I. Each point in a lattice is called lattice point.
II. Each point in a lattice represents one constituent particle (atom, molecule or ion).
III. Lattice points are joined by straight lines to bring out the geometry of the lattice.
Which of the above statement(s) is/are true ?

1 I and II
2 II and III
3 I and III
4 I, II and III
CHXII01:THE SOLID STATE

318768 Maximum possible number of two dimensional and three dimensional lattices are respectively

1 5 and 13
2 5 and 14
3 7 and 14
4 14 and 4
CHXII01:THE SOLID STATE

318769 Choose the correct statements:

1 There are five Bravais lattices in three dimensions.
2 There are four Bravais lattices in two dimensions.
3 Equivalent points in unit cells of a periodic lattice do not lie on a Bravais lattice.
4 Equivalent points in unit cells of a periodic lattice lie on a Bravais lattice.
CHXII01:THE SOLID STATE

318770 Coordination number of a body centred cubic is

1 6
2 8
3 10
4 12
For More Updates join with Us
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CHXII01:THE SOLID STATE

318766 The lattice site in a pure crystal cannot be occupied by

1 Molecule
2 Ion
3 Electron
4 Atom
CHXII01:THE SOLID STATE

318767 Consider the following characteristics of a crystal lattice.
I. Each point in a lattice is called lattice point.
II. Each point in a lattice represents one constituent particle (atom, molecule or ion).
III. Lattice points are joined by straight lines to bring out the geometry of the lattice.
Which of the above statement(s) is/are true ?

1 I and II
2 II and III
3 I and III
4 I, II and III
CHXII01:THE SOLID STATE

318768 Maximum possible number of two dimensional and three dimensional lattices are respectively

1 5 and 13
2 5 and 14
3 7 and 14
4 14 and 4
CHXII01:THE SOLID STATE

318769 Choose the correct statements:

1 There are five Bravais lattices in three dimensions.
2 There are four Bravais lattices in two dimensions.
3 Equivalent points in unit cells of a periodic lattice do not lie on a Bravais lattice.
4 Equivalent points in unit cells of a periodic lattice lie on a Bravais lattice.
CHXII01:THE SOLID STATE

318770 Coordination number of a body centred cubic is

1 6
2 8
3 10
4 12
NEET DIGITAL LIBRARY
CHXII01:THE SOLID STATE

318766 The lattice site in a pure crystal cannot be occupied by

1 Molecule
2 Ion
3 Electron
4 Atom
CHXII01:THE SOLID STATE

318767 Consider the following characteristics of a crystal lattice.
I. Each point in a lattice is called lattice point.
II. Each point in a lattice represents one constituent particle (atom, molecule or ion).
III. Lattice points are joined by straight lines to bring out the geometry of the lattice.
Which of the above statement(s) is/are true ?

1 I and II
2 II and III
3 I and III
4 I, II and III
CHXII01:THE SOLID STATE

318768 Maximum possible number of two dimensional and three dimensional lattices are respectively

1 5 and 13
2 5 and 14
3 7 and 14
4 14 and 4
CHXII01:THE SOLID STATE

318769 Choose the correct statements:

1 There are five Bravais lattices in three dimensions.
2 There are four Bravais lattices in two dimensions.
3 Equivalent points in unit cells of a periodic lattice do not lie on a Bravais lattice.
4 Equivalent points in unit cells of a periodic lattice lie on a Bravais lattice.
CHXII01:THE SOLID STATE

318770 Coordination number of a body centred cubic is

1 6
2 8
3 10
4 12