The milliliters of 1.6 M NaHCO 3 that must be poured on the spill to react completely with 88 mL of 2.6 M H 2 SO 4 is to be calculated. Concept introduction: Strong acids and strong bases are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release H + ions and OH − ions. Weak acids and weak bases are the substance that does not dissociate completely into its ions when dissolved in the solution. They dissociate partially in water to release H + ions and OH − ions. Sulfuric acid ( H 2 SO 4 ) is a strong acid and sodium bicarbonate ( NaHCO 3 ) is a weak base. Sulfuric acid ( H 2 SO 4 ) dissociates completely into ions and the sodium bicarbonate ( NaHCO 3 ) dissociates to some extent into ions. They both react to form sodium sulfate, carbon dioxide, and a water molecule. The molecular equation for the acid-base reaction of sulfuric acid and sodium bicarbonate is: H 2 SO 4 ( a q ) + 2 NaHCO 3 ( a q ) → Na 2 SO 4 ( a q ) + 2 H 2 O ( l ) + 2 CO 2 ( g )
The milliliters of 1.6 M NaHCO 3 that must be poured on the spill to react completely with 88 mL of 2.6 M H 2 SO 4 is to be calculated. Concept introduction: Strong acids and strong bases are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release H + ions and OH − ions. Weak acids and weak bases are the substance that does not dissociate completely into its ions when dissolved in the solution. They dissociate partially in water to release H + ions and OH − ions. Sulfuric acid ( H 2 SO 4 ) is a strong acid and sodium bicarbonate ( NaHCO 3 ) is a weak base. Sulfuric acid ( H 2 SO 4 ) dissociates completely into ions and the sodium bicarbonate ( NaHCO 3 ) dissociates to some extent into ions. They both react to form sodium sulfate, carbon dioxide, and a water molecule. The molecular equation for the acid-base reaction of sulfuric acid and sodium bicarbonate is: H 2 SO 4 ( a q ) + 2 NaHCO 3 ( a q ) → Na 2 SO 4 ( a q ) + 2 H 2 O ( l ) + 2 CO 2 ( g )
The milliliters of 1.6MNaHCO3 that must be poured on the spill to react completely with 88 mL of 2.6M H2SO4 is to be calculated.
Concept introduction:
Strong acids and strong bases are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release H+ ions and OH− ions.
Weak acids and weak bases are the substance that does not dissociate completely into its ions when dissolved in the solution. They dissociate partially in water to release H+ ions and OH− ions.
Sulfuric acid (H2SO4) is a strong acid and sodium bicarbonate (NaHCO3) is a weak base. Sulfuric acid (H2SO4) dissociates completely into ions and the sodium bicarbonate (NaHCO3) dissociates to some extent into ions. They both react to form sodium sulfate, carbon dioxide, and a water molecule.
The molecular equation for the acid-base reaction of sulfuric acid and sodium bicarbonate is:
7. Calculate the following for a 1.50 M Ca(OH)2 solution.
a. The concentration of hydroxide, [OH-]
b. The concentration of hydronium, [H3O+]
c. The pOH
d. The pH
A first order reaction is 46.0% complete at the end of 59.0 minutes. What is the value of k? What is the
half-life for this reaction?
HOW DO WE GET THERE?
The integrated rate law will be used to determine the value of k.
In
[A]
[A]。
=
= -kt
What is the value of
[A]
[A]。
when the reaction is 46.0% complete?
3. Provide the missing compounds or reagents.
1.
H,NNH
КОН 4
EN
MN.
1. HBUCK
= 8
хно
Panely prowseful kanti-chuprccant fad,
winddively, can lead to the crading of deduc
din-willed, tica,
The that chemooices in redimi
Грин.
"
like (for alongan
Ridovi
MN
نيا .
2. Cl
-BuO
1. NUH
2.A
A
-BuOK
THE
CF,00,H
Ex
5)
Chapter 4 Solutions
Chemistry The Molecular Nature Of Matter And Change 9th