(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.
Want to see more full solutions like this?
Chapter 3 Solutions
INTRO.TO GENERAL,ORGAN...-OWLV2 ACCESS
- Please help me figure out what the slope is and how to calculate the half life Using the data provided.arrow_forwardCurved arrows are used to illustrate the flow of electrons. Follow the curved arrows and draw the structure of the missing reactants, intermediates, or products in the following mechanism. Include all lone pairs. Ignore stereochemistry. Ignore inorganic byproducts. H Br2 (1 equiv) H- Select to Draw Starting Alkene Draw Major Product I I H2O 四: ⑦.. Q Draw Major Charged Intermediate Iarrow_forwardNH (aq)+CNO (aq) → CO(NH2)2(s) Experiment [NH4] (M) [CNO] (M) Initial rate (M/s) 1 0.014 0.02 0.002 23 0.028 0.02 0.008 0.014 0.01 0.001 Calculate the rate contant for this reaction using the data provided in the table.arrow_forward
- 2CIO2 + 20H-1 CIO31 + CIO2 + H2O Experiment [CIO2], M [OH-1], M 1 0.0500 0.100 23 2 0.100 0.100 3 0.100 0.0500 Initial Rate, M/s 0.0575 0.230 0.115 ... Given this date, calculate the overall order of this reaction.arrow_forward2 3 .(be)_[Ɔ+(be)_OI ← (b²)_IƆO+ (be)_I Experiment [1-] M 0.005 [OCI-] 0.005 Initial Rate M/min 0.000275 0.0025 0.005 0.000138 0.0025 0.0025 0.000069 4 0.0025 0.0025 0.000140 Calculate the rate constant of this reaction using the table data.arrow_forward1 2 3 4 I(aq) +OCl(aq) → IO¯¯(aq) + Cl¯(aq) Experiment [I-] M 0.005 [OCI-] 0.005 Initial Rate M/min 0.000275 0.0025 0.005 0.000138 0.0025 0.0025 Calculate the overall order of this reaction using the table data. 0.0025 0.000069 0.0025 0.000140arrow_forward
- H2O2(aq) +3 I¯(aq) +2 H+(aq) → 13(aq) +2 H₂O(l)· ••• Experiment [H2 O2]o (M) [I]o (M) [H+]。 (M) Initial rate (M/s) 1 0.15 0.15 0.05 0.00012 234 0.15 0.3 0.05 0.00024 0.3 0.15 0.05 0.00024 0.15 0.15 0.1 0.00048 Calculate the overall order of this reaction using the table data.arrow_forwardThe U. S. Environmental Protection Agency (EPA) sets limits on healthful levels of air pollutants. The maximum level that the EPA considers safe for lead air pollution is 1.5 μg/m³ Part A If your lungs were filled with air containing this level of lead, how many lead atoms would be in your lungs? (Assume a total lung volume of 5.40 L.) ΜΕ ΑΣΦ = 2.35 1013 ? atoms ! Check your rounding. Your final answer should be rounded to 2 significant figures in the last step. No credit lost. Try again.arrow_forwardY= - 0.039 (14.01) + 0.7949arrow_forward
- Suppose 1.76 g of magnesium acetate (Mg (CH3CO2)2) are dissolved in 140. mL of water. Find the composition of the resulting electrolyte solution. In particular, list the chemical symbols (including any charge) of each dissolved ion in the table below. List only one ion per row. mEq Then, calculate the concentration of each ion in dwrite the concentration in the second column of each row. Be sure you round your answers to the L correct number of significant digits. ion Add Row mEq L x 5arrow_forwardA pdf file of your hand drawn, stepwise mechanisms for the reactions. For each reaction in the assignment, you must write each mechanism three times (there are 10 reactions, so 30 mechanisms). (A) do the work on a tablet and save as a pdf., it is expected to write each mechanism out and NOT copy and paste the mechanism after writing it just once. Everything should be drawn out stepwise and every bond that is formed and broken in the process of the reaction, and is expected to see all relevant lone pair electrons and curved arrows.arrow_forwardNonearrow_forward
Introduction to General, Organic and BiochemistryChemistryISBN:9781285869759Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar TorresPublisher:Cengage Learning
Chemistry for Engineering StudentsChemistryISBN:9781337398909Author:Lawrence S. Brown, Tom HolmePublisher:Cengage Learning
Introductory Chemistry: An Active Learning Approa...ChemistryISBN:9781305079250Author:Mark S. Cracolice, Ed PetersPublisher:Cengage Learning
ChemistryChemistryISBN:9781305957404Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCostePublisher:Cengage Learning
Chemistry: An Atoms First ApproachChemistryISBN:9781305079243Author:Steven S. Zumdahl, Susan A. ZumdahlPublisher:Cengage Learning