What is soil buffering, and how is the soil buffer capacity related to its cation exchange...

Cation exchange capacity (CEC) is an important soil property and its magnitude is determined by the...

Cation exchange capacity (CEC) is an important soil property and its magnitude is determined by the nature of the colloids present. (i) Describe the type of soil colloid(s) that have permanent charge and explain why the charge is permanent. (ii) Describe the type of soil colloid(s) that have variable charge and the structures that lead to this variability. (iii) What environmental factor(s) are responsible for changing soil colloid charge and how does it (do they) elicit its (their) effect.

How do the buffering capacity and ranges of the formate buffer (0.10M formic acid/formate buffer) compare...

How do the buffering capacity and ranges of the formate buffer (0.10M formic acid/formate buffer) compare to acetate buffer (0.10M 1:1 HAc and NaAc). Ka of formic acid: 1.8x10-4 and Ka of acetic acid: 1.8x10-5

How can you increase the buffering capacity of a 0.1 M acetic acid/sodium acetate buffer? Explain...

How can you increase the buffering capacity of a 0.1 M acetic acid/sodium acetate buffer? Explain your answer!

Buffer capacity is a measure of a buffer solution's resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution's resistance to changes in pH as strong acid or base is added. Suppose that you have 115 mL of a buffer that is 0.160 M in both propanoic acid (C2H5COOH) and its conjugate base (C2H5COO-). Calculate the maximum volume of 0.470 M HCl that can be added to the buffer before its buffering capacity is lost.

Buffer capacity is a measure of a buffer solution's resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution's resistance to changes in pH as strong acid or base is added. Suppose that you have 175 mL of a buffer that is 0.360 M in both formic acid (HCOOH) and its conjugate base (HCOO–). Calculate the maximum volume of 0.290 M HCl that can be added to the buffer before its buffering capacity is lost.

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong acid or base is added. Suppose that you have 105 mL of a buffer that is 0.180 M in both propanoic acid (C2H5COOH) and its conjugate base (C2H5COO–). Calculate the maximum volume of 0.240 M HCl that can be added to the buffer before its buffering capacity is lost.

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong acid or base is added. Suppose that you have 135 mL of a buffer that is 0.360 M in both propanoic acid (C2H5COOH) and its conjugate base (C2H5COO–). Calculate the maximum volume of 0.180 M HCl that can be added to the buffer before its buffering capacity is lost.

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong acid or base is added. Suppose that you have 145 mL of a buffer that is 0.160 M in both hydrofluoric acid (HF) and its conjugate base (F–). Calculate the maximum volume of 0.160 M HCl that can be added to the buffer before its buffering capacity is lost.

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong...

Buffer capacity is a measure of a buffer solution\'s resistance to changes in pH as strong acid or base is added. Suppose that you have 175 mL of a buffer that is 0.440 M in both hydrofluoric acid (HF) and its conjugate base (F–). Calculate the maximum volume of 0.460 M HCl that can be added to the buffer before its buffering capacity is lost. THE ANSWER IS NOT 1.34 X 10^-4

1) You have been drip irrigating your soil for too many years. Now the soil is...

1) You have been drip irrigating your soil for too many years. Now the soil is too saline and you want to treat this by adding gypsum (CaSO4. 2H2O). Assume you have a 1 hectare field and 25% of the cation exchange capacity of the 15 cm thick A horizon is occupied by sodium (Na+). You want to remove 40% of the Na+, using CaSO4. 2H2O. What is the minimum amount of CaSO4. 2H2O needed to remove the Na+? Assume...