106CO2 + 50 SiO, + 16HNO, + H,PO, + 0.001FE + 122H,O →(CH,0),06(SiO,)so(NH3),e(H3PO,)Feo.001 + 13802a. Calculate the change in (total) CO, in the ocean surface mixed (Temp = 25C, Salinity =35 ppt) layer if 1 nM of iron is added (and consumed), assuming it is indeed the limitingnutrient.%3Db. Would this change in total CO, affect the alkalinity of the surface ocean? Why/why not?c. How much would the pH of the surface change following this primary production(assuming no respiration/gas exchange)? Use pCO2 = 420 ppm and total alkalinity = 2.2mM to start your calculations.%3D

The objective of this question is to calculate the change in total in the ocean surface mixed…

106CO2 + 50 SiO4 + 16HNO3 + H3PO4 + 0.001 Fe + 122H2O → og gnibuloni bos ((CH2O) 106 (SiO4) 50 (NH3) 16(H3PO4) Fe0.001 + 13802 a. Calculate the change in (total) CO2 in the ocean surface mixed (Temp = 25C, Salinity = 35 ppt) layer if 1 nM of iron is added (and consumed), assuming it is indeed the limiting nutrient. b. Would this change in total CO2 affect the alkalinity of the surface ocean? Why/why not? c. How much would the pH of the surface change following this primary production (assuming no respiration/gas exchange)? Use pCO2 = 420 ppm and total alkalinity = 2.2 mM to start your calculations.

106CO2 + 50 SiO4 + 16HNO3 + H3PO4 + 0.001 Fe + 122H2O → og gnibuloni bos ((CH2O) 106 (SiO4) 50 (NH3) 16(H3PO4) Fe0.001 + 13802 a. Calculate the change in (total) CO2 in the ocean surface mixed (Temp = 25C, Salinity = 35 ppt) layer if 1 nM of iron is added (and consumed), assuming it is indeed the limiting nutrient. b. Would this change in total CO2 affect the alkalinity of the surface ocean? Why/why not? c. How much would the pH of the surface change following this primary production (assuming no respiration/gas exchange)? Use pCO2 = 420 ppm and total alkalinity = 2.2 mM to start your calculations.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Related questions

Q: f Cl, and SiBr, were both liquids a 4

Q: 7) 5H₂ AsO4 7) In the reaction represented below, 1.928 x 10³ dg of H₂AsO4 will be produced by how…

Q: Convert the pressure of a substance into its “concentration” in mol L . Show how d[A]/dt is equal to…

A: Ideal gases are hypothetical gases which do have real existence. A gas can behave ideally at low…

Q: A waste sample contains acetic acid (CH3COOH) at 100 mg/L and ammonia (NH3) at 50 mg/L as N.…

Q: Oxyacetylene torches rely on a precise mixture of fuel (C2H2(g)) to oxygen to optimize the welding…

Q: One of relatively few reactions that takes place directly between two sollds at room temperature is…

A: For a balanced reaction number of atoms of each element must be equal on both sides. Given : Mass…

Q: Aluminum percent in a bauxite sample is determined by gravimetric analysis. 8-hydroxyquinoline…

A: Answer = 0.784%

Q: Use the References to access important values if needed for this question. A sample of oxygen gas at…

A: Initial pressure (P1) = 0.756 atm Initial temperature (T1) = 109°C = 109 + 273 = 382 K Initial…

Q: If p50 = 3.1 torr for elephant Mb (myoglobin) and p50 = 5.1 torr for zebra Mb, please pick ALL of…

A: The correct statements are: Elephant Mb binds oxygen more tightly than zebra Mb, since the p50 value…

Q: Log Koc = 2.36 for the pesticide Carbaryl. Rainwater percolating down through the soil contains 5…

Q: WhalefossilsfoundintheSaharaDesertprovetheregionwasoncecoveredin water. Remnants of that water,…

A: Given: Mass of fossil water = 1.65 × 1014 tons. Density of water = 1.00 g/mL.

Q: The diffusion constant for the amino acid glycine in water is 1.06 × 109 m²/s. In a 2.0-cm-long tube…

A: Given, Diffusion constant for amino acid and glycine in water , D =1.06 ×10-9m2s tube length , l =…

Q: If the molecular weight of air is 28.9, what is the density of air at atmospheric pressure and a…

Q: The iron (55.847 g/mol) in a 700.0 mL sample of a natural water was determined by precipitation of…

A: Given: Volume of sample = 700mL Mass of Fe2O3 = 0.1168g

Q: The temperature of your water was 22.4 degrees Celsius. The volume of hydrogen collected was 30.2…

Q: Draw (S)-4-ethyloctane in a structural condensed format. Use a dash or wedge bond to indicate…

A: We have to draw, (S)-4-ethyloctane

Q: Will the following reaction take place? Explain. NaBr(aq) + F2(1)>

A: Given that : We have to identify whether or not the following reaction takes place.

Q: Flask Volume 100.0 + 100.0 + 79.6 mL = 279.6 mL Mass of Flask + Cap 143.85 g Mass of Flask +…

A: Introduction : Its is used in analytical chemistry for the quantitative determination of the…

Q: Question 20 of 30 A calibrated burette will be used to deliver an intravenous medication dosage…

A: Given: Volume of medicine = 5 mLVolume of dilutant = 40 mLVolume of flush = 15 mL Total volume need…

Q: Acrylonitrile and water are produced from propene, ammonia, and oxygen in a 2 L vessel by the…

A: In this question, we have to find out the correct answer of given problem by the help of the…

Q: For which of the following reactions should you use a trap to collect noxious gases?

A: Several organic reactions release harmful gases which are sometimes corrosive and sometimes very…

Q: If there was a leak in the syringe and gas was escaping as the syringe plunger was being compressed.…

A: Step 1:The ideal gas equation would bePV=nRTWhere Pis the pressureV is the volumeR is the universal…

Q: What is the mass in grams of potassium dichromate(K2Cr2O7) are required to prepare a 350 cm3…

A: Given :- volume of solution = 350 cm3 molarity of potassium dichromate solution = 5.16 M molar…

Q: Describe how to calculate the ocean concentration of CO32- using the data collected from 2015. You…

A: pH = -log[H+]; HENCE FROM pH we can get [H+] concentration.

Q: Find the volume in liters of carbon dioxide gas (CO2) produced at 1.00 atm pressure and 25.0 ∘C from…

Question

106CO2 + 50 SiO, + 16HNO, + H,PO, + 0.001FE + 122H,O →
(CH,0),06(SiO,)so(NH3),e(H3PO,)Feo.001 + 13802
a. Calculate the change in (total) CO, in the ocean surface mixed (Temp = 25C, Salinity =
35 ppt) layer if 1 nM of iron is added (and consumed), assuming it is indeed the limiting
nutrient.
%3D
b. Would this change in total CO, affect the alkalinity of the surface ocean? Why/why not?
c. How much would the pH of the surface change following this primary production
(assuming no respiration/gas exchange)? Use pCO2 = 420 ppm and total alkalinity = 2.2
mM to start your calculations.
%3D

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Write The objective

VIEW

Step 2: Calculate the change in total CO2, assess its impact on ocean alkalinity,

VIEW

Step 3: Calculate the change in pH

VIEW

Solution

VIEW

Step by step

Solved in 4 steps with 40 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.

Similar questions

#17
7. A technician is setting up a laboratory to standardise ~0.0200 mol dm–3 KMnO4. What mass of Mohr’s salt [FeSO4(NH4)2SO4·6H2O] would the technician be required to weigh out to produce a 5.00 L solution of Mohr’s salt such that 25.0 cm3 aliquots of the salt would require a titre of 20.0 cm3 to standardise the KMnO4 solution?
what is obtained when CaC2 is heated in nitrogen at 1000 degree celsius ?
Calculate the molarity of a 30.0 wt% hydrogen peroxide (H₂O2, FM 34.014 7) solution. The density of 30 wt% hydrogen peroxide is 1.135 g/cm³. O 7.77 M O 0.0100 M O 0.100 M O 10.0 M O 8.82 M
A 100-liter empty jar was spiked with 20 mg of TCE (C2HCl3) under room temperature condition. The jar was then closed tightly. What is the concentration (in atm.) of TCE in the air at 25 C? (TCE: MW: 131.4 g/mol; TCE solubility in water (Cs) = 1100 mg/L; Pv (pure liquid at 25oC) = 10^-1.01 atm. KH = 10^1.03 L atm mol-1; KOW = 102.42). if the jar was half filled with water and half filled with air, what were the concentrations of TCE in both air and water at 25C?
The nitrogen content of organic compounds can be determined by the Dumas method.The compound in question is first passed over hot CuO(s): Compound N2(g) + CO2(g) + H2O(g) The gaseous products are then passed through a concentrated aqueous KOH solution to remove the CO2.The remaining gas contains N2 and water vapor.A 0.127-g sample of a compound was treated as above, producing 89.0 mL of N2 saturated with water vapor at 25 °C and 739.3 torr.What is the mass percent of nitrogen in the compound? . The vapor pressure of water at 25 °C is 23.8 torr.
Suppose the rate of evaporation in a hot, dry region is about 2m per year, and the seawater there has a salinity of 35 ppt. Assuming 90% yield, how much salt (NaCl) can be harvasted each year from 1 km2 of solar evaporation ponds? (The concentration of Sodium in seawater is 480.61 mM)
The density of silver (Ag) is 10.49 g/cm^3 and that of Nickle (Ni) is 8.9 g/cm^3. A comparison of the volumes (V) of 50 gram samples of each metal will show that? (A) Vag > Vni (B) Vag < Vni (C) Vag = Vni (D) there is no predictable relationship between volumes
Given the Volumetric Analysis of a Natural Gas: CH4 = 67.3% Nitrogen = 9.6% O2 = 2.7% CO = 0.8% C2H6 = 15.4% CO2 = 1.8% H2 = 2.4% Calculate the A/F ratio by mass considering CO = 6.1% CO2. Note: Use four (4) decimal places in your solution and answer.
Calculate the conductivity of 0.6400 Al2(SO4)3 in units of S/cm. AM AM (S/M-cm) Cation Anion (S/M-cm) H* 0.3496 OH 0.1991 Na* 0.05010 F 0.0554 K+ 0.07350 CI 0.07635 Lit 0.0387 Br 0.0781 Mg2+ 0.1060 NO3 0.07146 Ca2+ 0.1190 CIO, 0.0673 Ba2+ 0.1272 So,2 0.1600 A13+ PO4 0.183 3- 0.207
Please don't provide handwriting solution
1. Calculate the volume of carbon dioxide adjusted to 25 °C and 1 atm, that plants need to make 1.00 g glucose, CóH12O6, by photosynthesis in the reaction 6CO2(g) + 6H20(I) C6H1206(s) + 602 (g).