Answers
Answer: The pH of the buffer is 4.61
Explanation:
To calculate the pH of acidic buffer, we use the equation given by Henderson Hasselbalch:
We are given:
= negative logarithm of acid dissociation constant of weak acid = 4.70
= moles of conjugate base = 3.25 moles
= Moles of acid = 4.00 moles
pH = ?
Putting values in above equation, we get:
Hence, the pH of the buffer is 4.61
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Answers
Final answer:
In a reaction where two moles of C3H8 react with an excess of oxygen, the ∆H would be -4400 kJ, double the ∆H value when only one mole is reacted.
Explanation:
The given reaction, C3H8(g) + 5 O2(g) → 3 CO2(g) + 4 H2O, has a ∆H of –2200 kJ. This represents the energy change for the reaction involving one mole of C3H8. When two moles of C3H8 react, the ∆H will be double that of the given ∆H. Therefore, when two moles of C3H8 react with excess oxygen, the ∆H would be -4400 kJ. This is because the ∆H for a reaction is directly proportional to the amount of substance reacted, hence when two moles of C3H8 are reacted, the ∆H is doubled.
Learn more about Chemical Reactions here:
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Answers
Answer:
9.09
Explanation:
Please kindly check attachment for the step by step solution of the given problem.
B) theoretical yield
C) percent yield
Answers
Answer:
A) actual yield
Explanation:
Theoretical yield is the amount of product expected based on the stoichiomety.
Percent yield is the actual yield over the theoretical yield.
Answers
The data that should be plotted to show that experimental concentration data fits a first-order reaction is: C. In [reactant] vs. time.
What is a first-order reaction?
A first-order reaction can be defined as a type of chemical reaction in which the reaction rate (rate of reaction) is directly proportional to the concentration of the reacting chemical substance or elements.
Mathematically, the integrated rate law equation for a first-order reaction is given by this formula:
Where:
- A is the concentration after time (t).
is the initial concentration of the reactant.
- t is the time.
- k is the rate constant.
Taking the ln of both sides, we have:
Therefore, the data that should be plotted to show that experimental concentration data fits a first-order reaction is In[reactant] versus time.
Read more on rate constant here: brainly.com/question/24749252
Answer:
C) In[reactant] vs. time
Explanation:
For a first order reaction the integrated rate law equation is:
where A(0) = initial concentration of the reactant
A = concentration after time 't'
k = rate constant
Taking ln on both sides gives:
Therefore a plot of ln[A] vs t should give a straight line with a slope = -k
Hence, ln[reactant] vs time should be plotted for a first order reaction.
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Answer:
Poop Butt.
Explanation: Poop Butt.
Answers
Answer:
c. they are all used to diagnose medical conditions
Explanation:
Lactate dehydrogenase, aspartate aminotransfcrase, and creatine kinase all are used to diagnose medical conditions.