The compound K3[NiF6] is
paramagnetic. Determine the oxidation number of
nickel in this compound, the most likely geometry
of the coordination around the nickel, and the
possible configurations of the d electrons of the
nickel.
Oxidation number |
___-7-6-5-4-3-2-10+1+2+3+4+5+6+7 |
---|---|
Geometry | |
Configurations (t2g)n(eg)m |
Weak field |
Strong field |
The compound K3[NiF6] is paramagnetic. Determine the oxidation number of nickel in this compound, the most...
The compound (NH4)2(TCI) is paramagnetic. Determine the oxidation number of technetium in this compound, the most likely geometry of the coordination around the technetium, and the possible configurations of the d electrons of the technetium. 1 Oxidation number Geometry Weak field m Configurations (129)")" Strong field מו
The compound Li[MoF6] is paramagnetic. Determine the oxidation number of molybdenum in this compound, the most likely geometry of the coordination around the molybdenum, and the possible configurations of the d electrons of the molybdenum. Oxidation number Geometry Weak field Configurations (128)"leg) Strong field
Use the References to access important values if needed for this question. In the coordination compound NazCuFol, the Cu is octahedrally coordinated. • Predict whether this compound is diamagnetic or paramagnetic. If it is paramagnetic, tell how many unpaired electrons it has. If it is diamagnetic enter zero Number unpaired electrons - • Determine the d electron configuration of the copper in this compound • Name this compound. Submit Answer 5 question attempts remaining Use the References to access important...
please help! In the coordination compound LI[MOFs), the Mo is octahedrally coordinated. • Predict whether this compound is diamagnetic or paramagnetic. If it is paramagnetic, tell how many unpaired cloctrons it has. If it is diamagnetic enter zero. paramagnetic Number unpaired electrons = 2 • Determine the d electron configuration of the molybdenum in this compound (Men)", -2 mo Name this compound The compound (NH)[Mo(CN)) is paramagnetic. Determine the oxidation number of molybdenum in this compound, the most likely geometry...
In the coordination compound (NH4)3[AgF6], the Ag is octahedrally coordinated. Predict whether this compound is diamagnetic or paramagnetic. If it is paramagnetic, tell how many unpaired electrons it has. If it is diamagnetic enter zero. Number unpaired electrons = Determine the d electron configuration of the silver in this compound. (t2g)n(eg)m, n = , m = Name this compound.
In the coordination compound (NH4)3[V(C2O4)3], the V is octahedrally coordinated. Predict whether this compound is diamagnetic or paramagnetic. If it is paramagnetic, tell how many unpaired electrons it has. If it is diamagnetic enter zero. Number unpaired electrons = _____. Determine the d electron configuration of the vanadium in this compound. (t2G)n(eG)m, n =__ , m = -_ Name this compound.
In the coordination compound Naz[NiF6], the Ni is octahedrally coordinated. • Based on the fact that F is a weak-field ligand, predict whether this compound is diamagnetic or paramagnetic. If it is paramagnetic, tell how many unpaired electrons it has. If it is diamagnetic enter zero. Number unpaired electrons = Not submitted • Determine the d electron configuration of the nickel in this compound. (129)"(e)", n= , m= • Name this compound.
Which of these three octahedral coordination compounds is/are paramagnetic? (Refer to the spectrochemical series below) (1) [Sc(H2O)6] 3+ (2) [FeF6] 4– (3) [Mn(CN)6] 3– The spectrochemical series: Cl– < F– < H2O < NH3 < en < CN– (weak field/high spin) (strong field/low spin) Please explain.
1. Elements in Group 6A most commonly have an oxidation state of −2. a. True b. False 2. What is the noble gas core for Cu? a. He b. Kr c. Xe d. Rn e. Ar f. Ne 3. What will be the geometry of [CoCl2(NH3)4]? a. Square planar b. Linear c. Octahedral d. Tetrahedral e. Trigonal Bipyramid 4. What is the coordination number of Pt in [Pt(NH3)4]Cl2? a. 4 b. 3 c. 5 d. 1 e. 0 f. 2...
1. Elements in Group 6A most commonly have an oxidation state of −2. a. True b. False 2. What is the noble gas core for Cu? a. He b. Kr c. Xe d. Rn e. Ar f. Ne 3. What will be the geometry of [CoCl2(NH3)4]? a. Square planar b. Linear c. Octahedral d. Tetrahedral e. Trigonal Bipyramid 4. What is the coordination number of Pt in [Pt(NH3)4]Cl2? a. 4 b. 3 c. 5 d. 1 e. 0 f. 2...