(a)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Dicalcium phosphate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Phosphorous is given in the form of Dicalcium phosphate.
(b)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Magnesium sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Magnesium is given in the form of Magnesium sulfate.
(c)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Potassium chloride.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Potassium is given in the form of Potassium chloride.
(d)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Ferrous sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Iron is given in the form of Ferrous sulfate.
(e)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Calcium carbonate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Calcium is given in the form of Calcium carbonate.
(f)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Zinc aspartate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Zinc is given in the form of Zinc aspartate.
(g)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Manganese sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Manganese is given in the form of Manganese sulfate.
(h)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Titanium dioxide.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Titanium is given in the form of Titanium dioxide.
(i)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Horsetail leaf extract for silicon.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Silicon is given in the form of Horsetail leaf extract for silicon.
(j)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Copper sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Copper is given in the form of Copper sulfate.
(k)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Boron citrate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Boron is given in the form of Boron citrate.
(l)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Molybdenum Amino acid Chelate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Molybdenum is given in the form of Molybdenum Amino acid Chelate.
(m)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Chromium picolinate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Chromium is given in the form of Chromium picolinate.
(n)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Potassium iodide.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Iodine is given in the form of Potassium iodide.
(o)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Sodium selenate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Selenium is given in the form of Sodium selenate.
(p)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Vanadyl sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Vanadium is given in the form of Vanadyl sulfate.
(q)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Nickel sulfate.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Nickel is given in the form of Nickel sulfate.
(r)
Interpretation:
To determine the form of each trace mineral present in multivitamin formulations.
Concept Introduction:
Each trace mineral is extracted from a particular source. The source will be a mixture and the trace mineral will be in purest form.
Answer to Problem 100P
Stannous chloride.
Explanation of Solution
All trace elements are present in various forms. These forms when administered into body release the elements which are then used by the body.
Tin is given in the form of stannous chloride.
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Chapter 3 Solutions
INTRO.TO GENERAL,ORGAN...-OWLV2 ACCESS
- (11pts total) Consider the arrows pointing at three different carbon-carbon bonds in the molecule depicted below. Bond B Bond A Bond C a. (2pts) Which bond between A-C is weakest? Which is strongest? Place answers in appropriate boxes. Weakest Bond Strongest Bond b. (4pts) Consider the relative stability of all cleavage products that form when bonds A, B, AND C are homolytically cleaved/broken. Hint: cleavage products of bonds A, B, and C are all carbon radicals. i. Which ONE cleavage product is the most stable? A condensed or bond line representation is fine. ii. Which ONE cleavage product is the least stable? A condensed or bond line representation is fine. c. (5pts) Use principles discussed in lecture, supported by relevant structures, to succinctly explain the why your part b (i) radical is more stable than your part b(ii) radical. Written explanation can be no more than one-two succinct sentence(s)!arrow_forward. 3°C with TH 12. (10pts total) Provide the major product for each reaction depicted below. If no reaction occurs write NR. Assume heat dissipation is carefully controlled in the fluorine reaction. 3H 24 total (30) 24 21 2h • 6H total ● 8H total 34 래 Br2 hv major product will be most Substituted 12 hv Br NR I too weak of a participate in P-1 F₂ hv Statistically most favored product will be major = most subst = thermo favored hydrogen atom abstractor to LL Farrow_forwardFive chemistry project topic that does not involve practicalarrow_forward
- Please correct answer and don't used hand raitingarrow_forwardQ2. Consider the hydrogenation of ethylene C2H4 + H2 = C2H6 The heats of combustion and molar entropies for the three gases at 298 K are given by: C2H4 C2H6 H2 AH comb/kJ mol¹ -1395 -1550 -243 Sº / J K¹ mol-1 220.7 230.4 131.1 The average heat capacity change, ACP, for the reaction over the temperature range 298-1000 K is 10.9 J K¹ mol¹. Using these data, determine: (a) the standard enthalpy change at 800 K (b) the standard entropy change at 800 K (c) the equilibrium constant at 800 K.arrow_forward13. (11pts total) Consider the arrows pointing at three different carbon-carbon bonds in the molecule depicted below. Bond B Bond A Bond C a. (2pts) Which bond between A-C is weakest? Which is strongest? Place answers in appropriate boxes. Weakest Bond Strongest Bond b. (4pts) Consider the relative stability of all cleavage products that form when bonds A, B, AND C are homolytically cleaved/broken. Hint: cleavage products of bonds A, B, and C are all carbon radicals. i. Which ONE cleavage product is the most stable? A condensed or bond line representation is fine. ii. Which ONE cleavage product is the least stable? A condensed or bond line representation is fine. c. (5pts) Use principles discussed in lecture, supported by relevant structures, to succinctly explain the why your part b (i) radical is more stable than your part b(ii) radical. Written explanation can be no more than one-two succinct sentence(s)! Googlearrow_forward
- Print Last Name, First Name Initial Statifically more chances to abstract one of these 6H 11. (10pts total) Consider the radical chlorination of 1,3-diethylcyclohexane depicted below. 4 4th total • 6H total 래 • 4H total 21 total ZH 2H Statistical H < 3° C-H weakest - product abstraction here bund leads to thermo favored a) (6pts) How many unique mono-chlorinated products can be formed and what are the structures for the thermodynamically and statistically favored products? Product 6 Number of Unique Mono-Chlorinated Products Thermodynamically Favored Product Statistically Favored Product b) (4pts) Draw the arrow pushing mechanism for the FIRST propagation step (p-1) for the formation of the thermodynamically favored product. Only draw the p-1 step. You do not need to include lone pairs of electrons. No enthalpy calculation necessary H H-Cl Waterfoxarrow_forward10. (5pts) Provide the complete arrow pushing mechanism for the chemical transformation → depicted below Use proper curved arrow notation that explicitly illustrates all bonds being broken, and all bonds formed in the transformation. Also, be sure to include all lone pairs and formal charges on all atoms involved in the flow of electrons. CH3O II HA H CH3O-H H ①arrow_forwardDo the Lone Pairs get added bc its valence e's are a total of 6 for oxygen and that completes it or due to other reasons. How do we know the particular indication of such.arrow_forward
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