Balance this equation please.
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Answer:
Yes, they are useful.
Explanation:
They allow us to make use of strengths and benefits of a particular element while not being hampered by it's faults.
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Since the number of moles of acid will not change, we can use this formula:
M1 V1 = M2 V2
Where M is the concentration of the acid in the solution
V1 = 10 mL
and
V2 = Vwater + 10
If we add an additional 5 mL of acid, the new concentration of the acid will be:
M = (M1 (5mL) + M2 (Vwater + 10mL)) / (5mL + Vwater + 10mL)
The concentration of acid in the new solution will increase.
Long story short, C is the answer.
b. Which of the following statements is true?
A) The average kinetic energy of the ice in cup A is less than that in cup
b.
B)The average kinetic energy of the ice in cup A is greater than that cup in
b.
C)The average kinetic energy of the ice cup A is equal to that in cup
b.
D)The average kinetic energies of the ice in cup A and the ice in cup B are not comparable.
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Average kinetic energy is given by the formula:
KE(average) = 3/2*k*T
where k = Boltzmann constant = 1.38*10⁻²³ J/K
T = temperature in Kelvin (K)
Thus, the average KE is dependent only on temperature and independent of mass.
Since the temp in Cup A and B remains the same, the average KE will also be the same.
Ans C)
G The electrons are outside the nucleus and have no charge.
H The electrons are inside the nucleus and have a negative charge.
The electrons are outside the nucleus and have a negative charge.
which is correct
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Answer:
D. The electrons are outside the nucleus and have a negative charge.
Explanation:
Electrons are located outside the nucleus while protons and neutrons are located inside the nucleus.
Electrons are negatively charged and attracted to nucleus as the nucleus carry protons that are positively charged and neutrons have no charge.
Electrons are arranged in different energy levels based on the attraction between the positively charged nucleus and negatively charged electron.
Hence, the correct answer is "D. The electrons are outside the nucleus and have a negative charge."
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Answer;3.67061 kg of gold must be solidified to release 235 kJ of energy.
Explanation:
Molar heat of gold = 12.550 kJ/mol
1 mole of gold releases = 12.550 kJ/mol
Or we can rewrite it as ,1 kJ of energy is given by
Then 235 kJ of energy will be released by:
of gold
Mass of gold in 18.72 moles = 18.72 mole × 196.08 g/mol =3,670.61 g =3.67061 kg
1 kg = 1000 g
3.67061 kg of gold must be solidified to release 235 kJ of energy.
12.550 kJ-------------- 197g Au
235.0 kJ--------------------x
x = 3,69g Au
answer: 3,69g Au