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please help me this is my last
chance on the problem
For each of the following...
For each of the following ions, draw diagrams (on a piece of paper), like the one...
For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion # Unpaired Weak field # Unpaired Strong field (a) Ag3+ (b) Cu2+ (c) Mo5+ (d) Co4+ (e) Mo4+
For each of the following ions, druw diagrams (on a piece of paper), like the one...
For each of the following ions, druw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion #Unpaired Unpaired Weak field Strong field (a) Cr" (b) Nb2 eg (c) Rh fo (d) Mn? 5 (0) N. 2 0
For each of the following ions, draw diagrams (on a piece of paper), like the one...
For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion #Unpaired Weak field #Unpaired Strong field (a) Co4+ Ru5+ Fe2+ (d) Ni2+ (e) TV
References Use the References to access important values if needed for this question. For each of...
References Use the References to access important values if needed for this question. For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion # Unpaired # Unpaired Weak field Strong field (a) Co2+ do (b) Mn2+ eg Ca2+ t29 (d) Fe2+ Nb2+ tron Configurations...
References Use the References to access important values if needed for this question. For each of...
References Use the References to access important values if needed for this question. For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion # Unpaired #Unpaired Weak field Strong field Mn++ (b) 3 (c) Fe? 00000 00000 (d) Cr? Mn2- Submit Answer
1b Assume two octahedral coordination compounds, each containing the same central metal ion with five unpaired...
1b Assume two octahedral coordination compounds, each containing the same central metal ion with five unpaired d electrons (e g. Fe3+) One compound contains a weak-field ligand (e.g. F) and the other compound contains a strong-field ligand (e g CN). Compared to the strong-field compound, it is expected that the weak-field compound would have a I. smaller magnetic moment and absorb higher energy light . smaller magnetic moment and absorb lower energy light . larger magnetic moment and absorb higher...
can anyone please confirm my answers for 5&6? And can you explain how to fill in...
can
anyone please confirm my answers for 5&6? And can you explain
how to fill in the electrons for 7? Please and Thank you.
5. The values of A, for some coordination complexes are given below. (a) [Fe(ox)) --- 14,100 cm-1 (ox-oxalato ligand-----weak ligand] (b) [Fe(CN).-----35,000 cm ©) [Fe(CN)6]* -----33,800 cm (1) Explain reason(s) why A. of complex (a) and (b) are different (ii) Explain reason(s) why 4, of complex (b) and (c) are different 6. Answer the following questions...
Can you please help me these two problems. thanks 7.-11 points CJ10 21.P.017 My Notes Ask...
Can you please help me these two problems. thanks
7.-11 points CJ10 21.P.017 My Notes Ask Your Teacher when beryllium 7 ions m 1.165 x 10-26 kg) pass through a mass spectrometer, a uniform magnetic field of 0.3481 T curves their path directly to the center accelerating potential difference, what magnetic field should be used to send beryllium 10 ions m-1 663 10 26 kg) to the same location in the detector? Both types of ions are singly ionized q-+e...
My homework is due tomorrow and I have work! Please help me and answer these questions!...
My homework is due tomorrow and I have work! Please help me and
answer these questions! I'll give a thumbs up!
Electronic Structure of Atoms 1.20 Write the ground-state electron configuration for each atom. After each atom is its atomic number in parentheses. (a) Sodium (11) (b) Magnesium (12) (c) Oxygen (8) (d) Nitrogen (7) 1.21 Identify the atom that has each ground-state electron configuration. (a) 1s 2s 2p 3:23p (b) 1:2 2:22 1.23 How many electrons are in the...
I need help with the problem in the last photo.. I thought I’d post my lab...
I need help with the problem in the last photo.. I thought I’d
post my lab explanation and data if that helps you get a better
understanding, but it’s just the question at the end. I know I need
to use the Henderson Hasselbach equation.. so... 4.70 = pKa + log(
[acetate-ion] / [acetic-ion] ) and solve for pKa, then Ka.. but how
do I find the concentrations to put in the log fraction?
Thanks, in advance!
Learning Objectives: 1....
For each of the following ions, druw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion #Unpaired Unpaired Weak field Strong field (a) Cr" (b) Nb2 eg (c) Rh fo (d) Mn? 5 (0) N. 2 0
For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion #Unpaired Weak field #Unpaired Strong field (a) Co4+ Ru5+ Fe2+ (d) Ni2+ (e) TV
References Use the References to access important values if needed for this question. For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion # Unpaired # Unpaired Weak field Strong field (a) Co2+ do (b) Mn2+ eg Ca2+ t29 (d) Fe2+ Nb2+ tron Configurations...
References Use the References to access important values if needed for this question. For each of the following ions, draw diagrams (on a piece of paper), like the one to the right below, to show orbital occupancies for both weak and strong octahedral fields. Indicate (on the table below) the total number of unpaired electrons in each case. Ion # Unpaired #Unpaired Weak field Strong field Mn++ (b) 3 (c) Fe? 00000 00000 (d) Cr? Mn2- Submit Answer
1b Assume two octahedral coordination compounds, each containing the same central metal ion with five unpaired d electrons (e g. Fe3+) One compound contains a weak-field ligand (e.g. F) and the other compound contains a strong-field ligand (e g CN). Compared to the strong-field compound, it is expected that the weak-field compound would have a I. smaller magnetic moment and absorb higher energy light . smaller magnetic moment and absorb lower energy light . larger magnetic moment and absorb higher...
can
anyone please confirm my answers for 5&6? And can you explain
how to fill in the electrons for 7? Please and Thank you.
5. The values of A, for some coordination complexes are given below. (a) [Fe(ox)) --- 14,100 cm-1 (ox-oxalato ligand-----weak ligand] (b) [Fe(CN).-----35,000 cm ©) [Fe(CN)6]* -----33,800 cm (1) Explain reason(s) why A. of complex (a) and (b) are different (ii) Explain reason(s) why 4, of complex (b) and (c) are different 6. Answer the following questions...
Can you please help me these two problems. thanks
7.-11 points CJ10 21.P.017 My Notes Ask Your Teacher when beryllium 7 ions m 1.165 x 10-26 kg) pass through a mass spectrometer, a uniform magnetic field of 0.3481 T curves their path directly to the center accelerating potential difference, what magnetic field should be used to send beryllium 10 ions m-1 663 10 26 kg) to the same location in the detector? Both types of ions are singly ionized q-+e...
My homework is due tomorrow and I have work! Please help me and
answer these questions! I'll give a thumbs up!
Electronic Structure of Atoms 1.20 Write the ground-state electron configuration for each atom. After each atom is its atomic number in parentheses. (a) Sodium (11) (b) Magnesium (12) (c) Oxygen (8) (d) Nitrogen (7) 1.21 Identify the atom that has each ground-state electron configuration. (a) 1s 2s 2p 3:23p (b) 1:2 2:22 1.23 How many electrons are in the...
I need help with the problem in the last photo.. I thought I’d
post my lab explanation and data if that helps you get a better
understanding, but it’s just the question at the end. I know I need
to use the Henderson Hasselbach equation.. so... 4.70 = pKa + log(
[acetate-ion] / [acetic-ion] ) and solve for pKa, then Ka.. but how
do I find the concentrations to put in the log fraction?
Thanks, in advance!
Learning Objectives: 1....
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