Zebra mussels have no???
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Related Questions
Iron is produced in a blast furnace.Explain why most of the iron produced in a blast furnace is converted into steels.
What is the conversion of 85.0kg
Which of the following processes are physical changes?a) drying wet clothesb) lighting a match from a matchbookc) cutting snowflakes out of paperd) melting butter for popcorn
Arc AB is One-sixth of the circumference of a circle. What is the radian measure of the central angle?A.)StartFraction pi over 6 EndFractionB.)StartFraction pi Over 3 EndFractionC.)StartFraction 2 pi Over 3 EndFractionD.)StartFraction 5 pi Over 6 EndFractionTHE ANSWER IS B!!!
Phoenicia had a powerful, well-trained army.
B.
Phoenicia was known for its science and culture.
C.
Phoenicia led an alliance of many city-states.
D.
Phoenicia was a major sea trading power
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The Phoenicians be described as successors to the Minoans as Phoenicia was a major sea trading power. Hence option D is correct.
What is Phoenicians ?
Phoenicians are defined as an ancient thalassocratic culture with its center in present-day Lebanon, which originated in the Levant region of the eastern Mediterranean. Throughout their history, the Phoenician city-states' borders expanded and contracted, and they controlled various enclaves, including Arwad and Tell Sukas. The Phoenician and Punic religion was a polytheistic system with regional variations and some shared characteristics.
The Phoenicians and the Minoans were both well-known marine traders who concurrently ruled the seas without any signs of warfare.Both cultures blended the functions of their commerce hub, royal palace, and administrative hub.
Thus, the Phoenicians be described as successors to the Minoans as Phoenicia was a major sea trading power. Hence option D is correct.
To learn more about Phoenicians, refer to the link below:
#SPJ6
Answer: Phoenicia was a major sea trading power
Explanation:
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So for example, normal water freezes at 0°C. But water with salt in it won't freeze at 0°C, because its freezing point is lowered.
In answer to the question. It takes longer for water with salt in it to freeze because the substance requires a lower temperature than normal water to freeze.
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Answer:
Rb
Explanation:
Alkali metals are in group 1 (the first column on the periodic table) including Li, Na, K, etc.
What is the pressure, in atm, of the methane gas?
Express the answer using 3 significant figures.
atm
Answers
Answer:
P = 0.979 atm
Explanation:
Given data:
Number of moles of methane = 40.8 mol
Volume of container = 1020 L
Temperature = 298 K
Pressure of gas =?
Solution:
According to ideal gas equation,
PV = nRT
P = pressure
V = volume
n = number of moles
R = general gas constant
T = temperature
Now we will put the values,
P = nRT/V
P = 40.8 mol × 0.0821 atm.L/mol.K × 298 K / 1020 L
P = 998.2 atm /1020
P = 0.979 atm
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b. A 100.0 g sample of liquid ethanol vaporizes at its boiling point. Hvap = 38.6 kJ/mol
Answers
The heat required for the following two processes are:
a. 10.74 KJ
b. 83.92 KJ
Part a)
Given:
Mass (m) of ethanol = 100g
Heat of fusion, Hfus = 4.94 kJ/mol
To find:
Heat (Q) =?
Calculation for number of moles:
Mass of C₂H₅OH = 100g
Molar mass of C₂H₅OH = (2x12)+ (5x1) + 16 + 1 = 46g/mol
Number of Mole = Mass /Molar Mass
Number of mole (n) of C₂H₅OH = 100/46 = 2.174 moles.
Calculation for Heat of fusion:
Q = n x Hfus
Q = 2.174 mol x 4.94 kJ/mol
Q = 10.74KJ
Therefore, 10.74 KJ of heat is required to melt the ethanol.
Part b)
Given:
Mass of C₂H₅OH = 100g
Heat of vaporization, Hvap = 38.6 kJ/mol
To find:
Heat (Q) =?
Calculation for Heat of vaporization:
As calculated above, the number of mole in 100g of ethanol, C₂H₅OH is 2.174 moles.
The heat required to vaporize the ethanol can be obtained as follow:
Q = n x Hvap
Q = 2.174 mol x 38.6 kJ/mol
Q = 83.92 KJ
Therefore, 83.92 KJ of heat is required to vaporize the ethanol.
Find more information about Heat of fusion here:
Answer:
A. 10.74 KJ
B. 83.92 KJ
Explanation:
A. Data obtained from the question include the following:
Mass (m) of ethanol = 100g
Heat of fusion, Hfus = 4.94 kJ/mol
Heat (Q) =..?
Next, we shall determine the number of mole in 100g of ethanol, C2H5OH. This is illustrated below:
Mass of C2H5OH = 100g
Molar mass of C2H5OH = (2x12)+ (5x1) + 16 + 1 = 46g/mol
Number of mole (n) of C2H5OH =..?
Mole = Mass /Molar Mass
Number of mole (n) of C2H5OH = 100/46 = 2.174 moles.
Now, we can obtain the heat required to melt the ethanol as follow:
Q = n x Hfus
Q = 2.174 mol x 4.94 kJ/mol
Q = 10.74KJ
Therefore, 10.74 KJ of heat is required to melt the ethanol.
B. Data obtained from the question include the following:
Mass of C2H5OH = 100g
Heat of vaporisation, Hvap = 38.6 kJ/mol
Heat (Q) =..?
As calculated above, the number of mole in 100g of ethanol, C2H5OH is 2.174 moles.
The heat required to vaporise the ethanol can be obtained as follow:
Q = n x Hvap
Q = 2.174 mol x 38.6 kJ/mol
Q = 83.92 KJ
Therefore, 83.92 KJ of heat is required to vaporise the ethanol.
C. From the above calculations, a higher amount of heat energy i.e 83.92 KJ is required to vaporise the ethanol and a lesser amount of heat energy i.e 10.74 KJ is needed to melt the ethanol.