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CHXI02:STRUCTURE OF ATOM

307548 Match the orbitals of Column I with the nodal properties of Column II and choose the correct option.

Column I	Column II
A. \({\rm{2s}}\)	P. Angular node \({\rm{ = 2}}\)
B. \({\rm{4f}}\)	Q. Radial node \({\rm{ = 1}}\)
C. \({\rm{5d}}\)	R. Radial node \({\rm{ = 0}}\)
D. \({\rm{3p}}\)	S. Angular node \({\rm{ = 0}}\)

1 A - S, B - R, C - Q, D - P

2 A - S, B - R, C - P, D - Q

3 A - R, B - S, C - P, D - Q

4 A - R, B - S, C - Q, D - P

CHXI02:STRUCTURE OF ATOM

307519 The d-orbital that does not have four lobes is

1 \({{\rm{d}}_{{{\rm{x}}^{\rm{2}}}{\rm{ - }}{{\rm{y}}^{\rm{2}}}}}\)

2 \({{\rm{d}}_{{\rm{xy}}}}\)

3 \({{\rm{d}}_{{\rm{yx}}}}\)

4 \({{\rm{d}}_{{{\rm{z}}^{\rm{2}}}}}\)

CHXI02:STRUCTURE OF ATOM

307520 Select the correct statement

1 The number of maxima in radial probability distribution curve of 2s orbital are two

2 At the node, the value of the radial function changes from positive to negative

3 \({\rm{3}}{{\rm{d}}_{{{\rm{Z}}^{\rm{2}}}}}\) has 3 angular nodes

4 Both (1) and (2)

CHXI02:STRUCTURE OF ATOM

307521 Angular and spherical nodes in 3s are, respectively

1 \({\rm{1,1}}\)

2 \({\rm{1,0}}\)

3 \({\rm{2,0}}\)

4 \({\rm{0,}}\,{\rm{2}}\)

CHXI02:STRUCTURE OF ATOM

307522 Probability of finding an electron at the nodal surface is

1 unity

2 low

3 high

4 zero

CHXI02:STRUCTURE OF ATOM

307548 Match the orbitals of Column I with the nodal properties of Column II and choose the correct option.

Column I	Column II
A. \({\rm{2s}}\)	P. Angular node \({\rm{ = 2}}\)
B. \({\rm{4f}}\)	Q. Radial node \({\rm{ = 1}}\)
C. \({\rm{5d}}\)	R. Radial node \({\rm{ = 0}}\)
D. \({\rm{3p}}\)	S. Angular node \({\rm{ = 0}}\)

1 A - S, B - R, C - Q, D - P

2 A - S, B - R, C - P, D - Q

3 A - R, B - S, C - P, D - Q

4 A - R, B - S, C - Q, D - P

CHXI02:STRUCTURE OF ATOM

307519 The d-orbital that does not have four lobes is

1 \({{\rm{d}}_{{{\rm{x}}^{\rm{2}}}{\rm{ - }}{{\rm{y}}^{\rm{2}}}}}\)

2 \({{\rm{d}}_{{\rm{xy}}}}\)

3 \({{\rm{d}}_{{\rm{yx}}}}\)

4 \({{\rm{d}}_{{{\rm{z}}^{\rm{2}}}}}\)

CHXI02:STRUCTURE OF ATOM

307520 Select the correct statement

1 The number of maxima in radial probability distribution curve of 2s orbital are two

2 At the node, the value of the radial function changes from positive to negative

3 \({\rm{3}}{{\rm{d}}_{{{\rm{Z}}^{\rm{2}}}}}\) has 3 angular nodes

4 Both (1) and (2)

CHXI02:STRUCTURE OF ATOM

307521 Angular and spherical nodes in 3s are, respectively

1 \({\rm{1,1}}\)

2 \({\rm{1,0}}\)

3 \({\rm{2,0}}\)

4 \({\rm{0,}}\,{\rm{2}}\)

CHXI02:STRUCTURE OF ATOM

307522 Probability of finding an electron at the nodal surface is

1 unity

2 low

3 high

4 zero

CHXI02:STRUCTURE OF ATOM

307548 Match the orbitals of Column I with the nodal properties of Column II and choose the correct option.

Column I	Column II
A. \({\rm{2s}}\)	P. Angular node \({\rm{ = 2}}\)
B. \({\rm{4f}}\)	Q. Radial node \({\rm{ = 1}}\)
C. \({\rm{5d}}\)	R. Radial node \({\rm{ = 0}}\)
D. \({\rm{3p}}\)	S. Angular node \({\rm{ = 0}}\)

1 A - S, B - R, C - Q, D - P

2 A - S, B - R, C - P, D - Q

3 A - R, B - S, C - P, D - Q

4 A - R, B - S, C - Q, D - P

CHXI02:STRUCTURE OF ATOM

307519 The d-orbital that does not have four lobes is

1 \({{\rm{d}}_{{{\rm{x}}^{\rm{2}}}{\rm{ - }}{{\rm{y}}^{\rm{2}}}}}\)

2 \({{\rm{d}}_{{\rm{xy}}}}\)

3 \({{\rm{d}}_{{\rm{yx}}}}\)

4 \({{\rm{d}}_{{{\rm{z}}^{\rm{2}}}}}\)

CHXI02:STRUCTURE OF ATOM

307520 Select the correct statement

1 The number of maxima in radial probability distribution curve of 2s orbital are two

2 At the node, the value of the radial function changes from positive to negative

3 \({\rm{3}}{{\rm{d}}_{{{\rm{Z}}^{\rm{2}}}}}\) has 3 angular nodes

4 Both (1) and (2)

CHXI02:STRUCTURE OF ATOM

307521 Angular and spherical nodes in 3s are, respectively

1 \({\rm{1,1}}\)

2 \({\rm{1,0}}\)

3 \({\rm{2,0}}\)

4 \({\rm{0,}}\,{\rm{2}}\)

CHXI02:STRUCTURE OF ATOM

307522 Probability of finding an electron at the nodal surface is

1 unity

2 low

3 high

4 zero

CHXI02:STRUCTURE OF ATOM

307548 Match the orbitals of Column I with the nodal properties of Column II and choose the correct option.

Column I	Column II
A. \({\rm{2s}}\)	P. Angular node \({\rm{ = 2}}\)
B. \({\rm{4f}}\)	Q. Radial node \({\rm{ = 1}}\)
C. \({\rm{5d}}\)	R. Radial node \({\rm{ = 0}}\)
D. \({\rm{3p}}\)	S. Angular node \({\rm{ = 0}}\)

1 A - S, B - R, C - Q, D - P

2 A - S, B - R, C - P, D - Q

3 A - R, B - S, C - P, D - Q

4 A - R, B - S, C - Q, D - P

CHXI02:STRUCTURE OF ATOM

307519 The d-orbital that does not have four lobes is

1 \({{\rm{d}}_{{{\rm{x}}^{\rm{2}}}{\rm{ - }}{{\rm{y}}^{\rm{2}}}}}\)

2 \({{\rm{d}}_{{\rm{xy}}}}\)

3 \({{\rm{d}}_{{\rm{yx}}}}\)

4 \({{\rm{d}}_{{{\rm{z}}^{\rm{2}}}}}\)

CHXI02:STRUCTURE OF ATOM

307520 Select the correct statement

1 The number of maxima in radial probability distribution curve of 2s orbital are two

2 At the node, the value of the radial function changes from positive to negative

3 \({\rm{3}}{{\rm{d}}_{{{\rm{Z}}^{\rm{2}}}}}\) has 3 angular nodes

4 Both (1) and (2)

CHXI02:STRUCTURE OF ATOM

307521 Angular and spherical nodes in 3s are, respectively

1 \({\rm{1,1}}\)

2 \({\rm{1,0}}\)

3 \({\rm{2,0}}\)

4 \({\rm{0,}}\,{\rm{2}}\)

CHXI02:STRUCTURE OF ATOM

307522 Probability of finding an electron at the nodal surface is

1 unity

2 low

3 high

4 zero

CHXI02:STRUCTURE OF ATOM

307548 Match the orbitals of Column I with the nodal properties of Column II and choose the correct option.

Column I	Column II
A. \({\rm{2s}}\)	P. Angular node \({\rm{ = 2}}\)
B. \({\rm{4f}}\)	Q. Radial node \({\rm{ = 1}}\)
C. \({\rm{5d}}\)	R. Radial node \({\rm{ = 0}}\)
D. \({\rm{3p}}\)	S. Angular node \({\rm{ = 0}}\)

1 A - S, B - R, C - Q, D - P

2 A - S, B - R, C - P, D - Q

3 A - R, B - S, C - P, D - Q

4 A - R, B - S, C - Q, D - P

CHXI02:STRUCTURE OF ATOM

307519 The d-orbital that does not have four lobes is

1 \({{\rm{d}}_{{{\rm{x}}^{\rm{2}}}{\rm{ - }}{{\rm{y}}^{\rm{2}}}}}\)

2 \({{\rm{d}}_{{\rm{xy}}}}\)

3 \({{\rm{d}}_{{\rm{yx}}}}\)

4 \({{\rm{d}}_{{{\rm{z}}^{\rm{2}}}}}\)

CHXI02:STRUCTURE OF ATOM

307520 Select the correct statement

1 The number of maxima in radial probability distribution curve of 2s orbital are two

2 At the node, the value of the radial function changes from positive to negative

3 \({\rm{3}}{{\rm{d}}_{{{\rm{Z}}^{\rm{2}}}}}\) has 3 angular nodes

4 Both (1) and (2)

CHXI02:STRUCTURE OF ATOM

307521 Angular and spherical nodes in 3s are, respectively

1 \({\rm{1,1}}\)

2 \({\rm{1,0}}\)

3 \({\rm{2,0}}\)

4 \({\rm{0,}}\,{\rm{2}}\)

CHXI02:STRUCTURE OF ATOM

307522 Probability of finding an electron at the nodal surface is

1 unity

2 low

3 high

4 zero

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