Which of the following is not an example of a mineral crystal shape?a. Kryptonite
b. Pyrite
c. Quartz
d. Calcite

Answers

Answer 1

Answer: Kryptonite is not an example of a mineral crystal shape.

Answer: a. Kryptonite

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When a pot of water sits on a hot stove, the metal pot is heated, and then transfers its heat to the water. A student claims that conduction is the only type of heat transfer occurring. Which statement explains why the student's idea is incorrect?a. Conduction cannot occur between two different phases of matter. b. The water transfers heat within the pot by convection. c. Water cannot be heated by electromagnetic radiation. d. Metal is a poor conductor of heat.
The elements in each column have ___________
when you check a toaster with a digital or analog video in which one of the following indicates dirty contacts on the thermostat blade
In Dna, guanine always forms hydrogen bonds with?
Select the correct answer.John is riding a ski lift to the top of Wildcat Mountain. He removes his gloves and rapidly rubs his hands together to warm them up. Whathappens when John rubs his hands?O A. The skin on his hands rapidly conducts heat, similar to metal.O B. He traps heat between his hands because skin is an insulator. ISO C. The particles In his hands vibrate faster because of friction.O D. Thermal energy moves from his fingertips to his palms.O E. He simulates a fever that'll raise his core body temperature.

What is the total number of valence electrons in an atom of sulfur in the ground state?A. 6
B. 8
C. 3
D. 4

Answers

I am not sure but I think it might be A) 6. Sorry if it is not correct because I am not good at chemistry, Hope this helped! :)

Sulfur is in group 6A. All the elements in the A group are how many electrons it has. Since sulfur is in 6A it has 6 electrons so it the answer is A) 6.

According to Bohr's model, what can be said of the amount of energy that an electron absorbs when it is excited compared to the amount of energy that it releases when it returns to ground state?A. The amount of energy that is absorbed is greater than the amount of energy that is released.

B. The amount of energy that is absorbed is the same as the amount of energy that is released.

C. The amount of energy that is absorbed is less than the amount of energy that is released.

Answers

letter b. because energy can't be created nor destroyed

The concentration of gallium in silicon is 5.0 × 10−7 at%. What is the concentration in kilograms of gallium per cubic meter?

Answers

The concentration of gallium in kilograms per cubic meter is equal to the calculated mass of gallium per cubic meter.

To determine the concentration of gallium in kilograms per cubic meter, we need to convert the concentration from atomic percent (at%) to kilograms per cubic meter.

The atomic fraction is the ratio of the number of gallium atoms to the total number of atoms in the silicon-gallium mixture.

We need to know the atomic masses of gallium and silicon. The atomic mass of gallium is 69.72 g/mol, and the atomic mass of silicon is 28.09 g/mol.

The atomic fraction of gallium can be calculated using the formula:

Atomic fraction of gallium = (Concentration of gallium in at%) / (Atomic mass of gallium) / [(Concentration of gallium in at%) / (Atomic mass of gallium) + (Concentration of silicon in at%) / (Atomic mass of silicon)]

Plugging in the given values:

Atomic fraction of gallium = ( $5.0 * 10^(-7)$ %) / (69.72 g/mol) / [( $5.0 * 10^(-7)$ at%) / (69.72 g/mol) + (100 - $5.0 * 10^(-7)$ ) at% / (28.09 g/mol)]

Now, let's convert the atomic fraction to the number of gallium atoms per cubic meter. We can use Avogadro's number, to make this conversion.

Number of gallium atoms per cubic meter = Atomic fraction of gallium × Avogadro's number.

Mass of gallium per cubic meter = Number of gallium atoms per cubic meter × (Atomic mass of gallium / 1000)

Therefore, the concentration of gallium in kilograms per cubic meter is equal to the calculated mass of gallium per cubic meter.

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Final answer:

The concentration of gallium in kilograms per cubic meter can be calculated using the atomic mass of gallium and Avogadro's number.

Explanation:

To calculate the concentration of gallium in kilograms per cubic meter, we can use the atomic mass of gallium and Avogadro's number. The concentration in kilograms per cubic meter can be found using the formula:

Concentration (kg/m³) = Concentration (% by mass) x Density (g/cm³) x Atomic Mass (g/mol) / 1000 x Avogadro's Number

First, convert the concentration from at% (atomic percent) to % by mass. Since gallium has an atomic mass of 69.7 g/mol, we can use this value to find the concentration in kilograms per cubic meter.

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Which scientist provided a foundation for John Dalton’s work on the atomic structure?Robert Millikan
Joseph Proust
Ernest Rutherford
J. J. Thomson

Answers

Answer:

J.J. Thomson

Explanation:

Answer:

Explanation:

took the test

A rigid framework of many ions locked together in a repeating pattern is called a(n)

Answers

A crystal is rigid framework of many ions locked together in a repeating pattern.A crystal or crystalline solid is a solid material whose constituents (such as atoms, molecules or ions) are arranged in a highly ordered microscopic structure, forming a crystal lattice that extends in all directions.

Explain the difference between an endpoint and equivalence point in a titration

Answers

To know the end point we use phenolphthalein as indicator. Therefore, endpoint is point in which indicator change the color, and equivalence point is point in which there is equal amount of two chemicals.

What is titration?

Titration is a technique by which we know the concentration of unknown solution using titration of this solution with solution whose concentration is known. To know the end point we use phenolphthalein as indicator. End point is a point where completion of reaction happen.

Endpoint is point in which indicator change the color, and equivalence point is point in which there is equal amount of two chemicals. Endpoint is after Equivalence point.

Therefore, endpoint is point in which indicator change the color, and equivalence point is point in which there is equal amount of two chemicals.

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Answer:

Endpoint is point in which indicator change the color, and equivalence point is point in which there is equal amount of two chemicals. Endpoint is after Equivalence point.

Explanation:

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