6 At STP, which element is a good conductor of electricity?(1) chlorine (3) silver(2) iodine (4) sulfur
Answers
From the given choices
Chlorine is a halogen existing as a diatomic gas. Iodine too is a halogen and 2 Iodine atoms held together by covalent bond. Cl - Cl bonds and I-I bonds are covalent bonds. the outer electrons of Cl and I take part in covalent bonds therefore they are fixed and not free to move about. therefore no free electrons to conduct electricity.
Sulfur is a solid that too is held together by covalent bonds so it does not have free electrons to conduct electricity.
Silver is a metal and a general property of metals are their ability to conduct electricity.
metal structure are metal ions tightly packed together. when the metal atoms are tightly packed their valence electrons are removed and delocalised. Positively charged metal ions are embedded in a sea of delocalised electrons.
therefore there are delocalised electrons that can conduct electricity
answer is 3) silver
Related Questions
Which product forms from a reaction between beryllium (Be) and arsenic (As)?A. BeAs2B. BeAsC. Be3As2D. Be2As3
A gas occupying a volume of 381 mL at a pressure of 5 mmHg is allowed to expand until the pressure reaches 589 mmHg. What is the final volume in mL?
Which monosaccharide commonly found in all disaccharides?
All elements have a unique atomic emission spectrum. In which of the following scenarios would this fact be most useful?A. when trying to determine a star's chemical composition B. when trying to determine how old an artifact is C. when trying to measure the speed of sound
sodium (Na) and potassium (K)
carbon (C) and oxygen (O)
boron (B) and beryllium (Be)
Answers
Both sodium and potassium have the same number of valence electrons.
Answer:
The correct answer is the second option; sodium (Na) and potassium (K.)
Both sodium and potassium have the same number of valence electrons.
Explanation:
Answers
Answer : The volume of 6.00 M HCl needed are, 361.5 ml
Solution :
According to the neutralization law,
where,
= molarity of HCl solution = 6.00 M
= volume of HCl solution = ?
= molarity of another HCl solution = 6.80 M
= volume of another HCl solution = 319 ml
Now put all the given values in the above law, we get the volume of HCl solution.
Therefore, the volume of 6.00 M HCl needed are, 361.5 ml
HELP.
Answers
Answer:
To explain why they are revolting against the king
Explanation:
Answers
Answer:
$182 is the value of the gold in the coin
Explanation:
Diameter is 2r, the ratio of the coin is = 1.62cm / 2 = 0.81cm
Following the formula of the volume of the coin:
V = π r² h
V = π*(0.81cm)²*0.085cm
V = 0.172cm³ = mL
As the density of the gold is 19.32g/mL, the mass of 0.1752mL of gold is:
0.1752mL * (19.32g / mL) =
3.385g is the mass of the coin
As the price of the gold is $53.90 / g, the value of the gold in the coin is:
3.385g * ($53.90 / g) =
$182 is the value of the gold in the coin
Final answer:
To find the value of the gold in the coin, calculate its volume using the formula for the volume of a cylinder. The value of gold in the coin is $185.37.
Explanation:
To calculate the value of gold in the coin, we need to find its volume first using the formula for volume of a cylinder:
The radius (r) of the coin is half its diameter, so it is 0.81 cm. The height (h) is 0.085 cm. Plugging in these values, we can find the volume of the coin. Next, we calculate the mass of the gold in the coin using its density and the volume we just calculated. Finally, we multiply the mass by the price per gram of gold to find the value of the gold in the coin.
The volume of the coin is:
= 0.178 cm3.
The mass of the gold is:
m = density x volume
= 19.32 x 0.178
= 3.443 g.
The value of the gold in the coin is the value as -
= mass x price per gram
= 3.443 g x $53.90/g
= $185.37.
Learn more about value of gold in a coin here:
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b. The valence electrons stay in a single orbital.
c. The valence electrons break free of the crystals.
d. The valence electrons move closer to the nuclei.
Answers
Answer: THE answer is A
Explanation: took the exam