If two unidentified solids of the same texture and color have different solubilities in 100 grams of water at 20°C, you could conclude that

a.
they are the same substance.
b.
they are different substances.
c.
they have different melting points.
d.
their solubilities will be the same if the water temperature is increased.

The answer is D

hope this isnt too late

The movement of tectonic plates buries a rock deep inside Earth. Intense heat and pressure change the mineral composition of the rock and transform it into rock as rock A is composed of layers of sediments. Rock B has a fine grainy texture and small crystals.

Minerals are defined as a chemical compound which has a well -defined composition and possesses a specific crystal structure.It occurs naturally in the pure form.

If a compound occurs naturally in different crystal structure then each structure is considered as a different mineral.The chemical composition of a mineral varies depending on the presence of small impurities which are present in small quantities.

Some minerals can have variable proportions of two or more chemical elements which occupy equivalent position in the crystal structure.It may also have variable composition which is split into separate species.

Physical properties of minerals include color,streak, luster,specific gravity and cleavage.

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Redox reactions are due to competition between particles for electrons. These reactions involve the back-and-forth transfer of electrons, with accompanying energy shifts. Major contributors to the process are co-enzymes like NAD and FAD.

Oxidation-reduction reactions, also known as redox reactions, occur because of competition between particles for electrons. This process involves the transfer of electrons from one compound (the donor) to another compound (the recipient). When an electron is passed from a donor molecule, it undergoes oxidation. The recipient molecule, on the other hand, goes through a process called reduction, meaning it gains an electron.

Utilization of the transferred electrons involves the release and absorption of energy. Commonly, these reactions occur in a series, meaning a molecule that is reduced (gains an electron) is subsequently oxidized (loses the electron), passing on both the electron and the absorbed energy to the next molecule. Over time, this results in an accumulation of energy that is further used for various metabolic functions.

Some major contributors to this process are coenzymes like nicotinamide adenine dinucleotide (NAD) and flavin adenine dinucleotide (FAD). These coenzymes accept and transfer high-energy electrons between compounds in pathways, thereby playing a crucial role in redox reactions.

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The graph that best demonstrates the general relationship between mass and temperature, similar to the trend of thermal energy absorbed by sand and water samples, is the first graph on the left.

The first graph on the left shows a negative correlation between mass and temperature, indicating that as mass increases, the temperature decreases.

This relationship often reflects how larger masses require more thermal energy to achieve the same temperature increase, which is a typical trend observed in thermal energy absorption experiments with different materials like sand and water.

The other graphs (middle and right) show no correlation and a positive correlation respectively, which do not align with the expected trend.

The heat needed to raise the temperature of 150 g of ice from -30°C to -15°C is 4704 Joules. This uses the fact that the heat absorbed by ice in its solid state is constant (0.50 cal/g °C), and the principle that heat calculations rely on mass, specific heat capacity, and the change in temperature.

In the question, the student needs to find out the amount of heat required to raise the temperature of 150 g of ice from -30°C to -15°C. The task only involves heating ice, while keeping it in solid form as the raised temperatures are still below 0°C. To find the required heat, we can use the formula q = mcΔT, where 'q' is heat, 'm' is mass, 'c' is the specific heat capacity and 'ΔT' is the change in temperature. From the available information, ice absorbs heat at a constant rate of 0.50 cal/g °C. We have to translate this into the SI unit for heat (Joules) as: 1 cal = 4.184 J. Therefore, the specific heat of ice in SI units is: 0.50 cal/g °C * 4.184 J/cal = 2.092 J/g °C.

Substitute the given values into the formula: q = 150 g * 2.092 J/g °C * 15 °C = 4704 J. Therefore, 4704 Joules of heat is needed to raise the temperature of 150 g of ice from -30°C to -15°C.

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The most acidic solution is represented by a hydrogen ion concentration of 10^-1 M, which is higher than 1 x 10^-7 M, indicating higher acidity.

The one that describes the most acidic solution among the given hydrogen ion concentrations is 10^-1 M. The acidity of a solution is determined by the concentration of hydrogen ions ([H+]), also referred to as hydronium ions ([H3O+]). A higher concentration of these ions means the solution is more acidic. According to the provided reference material, a solution is acidic if [H3O+] > 1 × 10^-7 M, neutral if [H3O+] = 1 × 10^-7 M, and basic if [H3O+] < 1 × 10^-7 M. Therefore, a concentration of 10^-1 M is significantly greater than 1 × 10^-7 M, indicating a very acidic solution.

The most acidic solution among the given options is 10-1 M.

To determine acidity, we compare the [H+] values. A solution is considered acidic if its [H+] concentration is greater than 1 × 10-7 M. In this case, 10-1 M is much greater than 1 × 10-7 M, making it the most acidic solution.

Answer:

All ancient fossils contain C-14

Explanation:

All living things contain more than one isotope of carbon, the most prominent being, carbon -12 and carbon-14.

Carbon-14 is a radioactive isotope of carbon. When the artifact is retrieved, the activity of carbon-14 in that sample is matched with the carbon-14 activity of a living organism. When this is done, the age of the fossil can easily be accurately calculated.

Answer:

Glucose

Explanation:

i took flvs 8th grade

Ethyl alcohol is the solvent in this mixture because it is the substance present in a larger volume and has dissolved the water.

The substance that is the solvent in a mixture is the one that makes up the majority of the solution and is responsible for dissolving the other substance (solute). In this case, the water is poured into the beaker containing ethyl alcohol, and it's mentioned that there are 600 mL of ethyl alcohol in the beaker.

Therefore, ethyl alcohol is the solvent in this mixture because it is the substance present in a larger volume and has dissolved the water. Water is the solute in this case, as it has been added to the ethyl alcohol. The fact that water is a polar compound is not relevant in determining which substance is the solvent; the solvent is typically the substance in greater quantity in the solution.

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If a standard die is rolled twice, the probability of getting a perfect square is 1/9 and a number that is less than 5 is 1/16.

Probability is a branch of mathematics which tells about the chances of occurring in something.

There are three squares in a standard dice. 1, 2, 4. If there are two dices, then the probability of getting squares are 1/3 x 1/3 = 1/9.

There are four numbers less than 5, so

1/4 x 1/4 = 1/16.

Thus, the probabilities are 1/9 and 1/16.

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The enthalpy of a reaction does not depend on intermediate reactions but on the initial and final states, determining the overall enthalpy change as per Hess's law. Option B is correct.

The correct description of the enthalpy of a reaction is that it does not depend on the intermediate reactions. Enthalpy is a state function, which means it only depends on the initial and final states of the system, not on the path or intermediate reactions taken to get from one to the other.

This is analogous to climbing a mountain; the total altitude change is the same regardless of the path taken to reach the summit. Therefore, the enthalpy change of a chemical reaction can be determined using Hess's law, which states that the total enthalpy change during a reaction is the sum of the enthalpy changes for each step of the reaction process.

Hence, B. is the correct option.

The correct option is b i.e, Carbon significantly affects the weldability of common gray cast iron due to its high content and impact on microstructure, leading to potential brittleness and cracking during welding.

The element that has the most important effect on the weldability of common gray cast iron is notably carbon. Gray cast iron contains a high percentage of carbon, typically between 2.5% and 4.0%, which forms large graphite flakes within an iron matrix. These graphite flakes give gray cast iron its characteristic properties, such as good machinability and vibration damping, but they also create challenges during welding because they can lead to brittleness and cracking in the heat-affected zone.

Carbon's presence in high concentrations impacts the microstructure of the iron, making the weldability more complex compared to other elements like copper, steel, or sulfur. This is primarily because excessive carbon can lead to the formation of hard and brittle phases during cooling, which complicates the welding process.

To find the number of neutrons in Roentgenium-272 (Rg-272), subtract its atomic number (111) from its mass number (272), resulting in 161 neutrons.

The student is asking to determine the number of neutrons in an atom of Roentgenium-272 (Rg-272). To calculate the number of neutrons in an atom of Rg-272, we use the mass number of the isotope and the atomic number of the element.

Roentgenium (Rg) has an atomic number of 111, which is the number of protons in the nucleus of the atom. The mass number of Rg-272 is the sum of protons and neutrons together. Since we know the atomic number of Rg is 111, the calculation to find the number of neutrons is:

Number of neutrons = Mass number - Atomic number
Number of neutrons = 272 - 111
Number of neutrons = 161

Therefore, an atom of Rg-272 has 161 neutrons.

Answer:

36.385 grams of oxygen reacts when 84.9 grams of iron.

Explanation:

[tex]4Fe+3O_2\rightarrow 2Fe_2O_3[/tex]

Moles of iron = [tex]\frac{84.9 g}{56 g/mol}=1.5160 mol[/tex]

According to reaction, 4 moles of iron reacts with 3 moles of oxygen gas.

Then 1.5160 moles of iron will react with:

[tex]\frac{3}{4}\times 1.5160 mol=1.1370 mol[/tex] of oxygen gas

Mass of 1.1370 moles of oxygen gas:

[tex]1.1370 mol\times 32 g/mol=36.385 g[/tex]

36.385 grams of oxygen reacts when 84.9 grams of iron.

its an electrolyte.. :D

The 103.8g nitric acid solution that is 70.0% HNO3 contains approximately 72.66g of HNO3.

The student is asking about the mass of HNO3 (nitric acid) in a given solution. Given that the solution is 70.0% HNO3, this means that 70.0% of the total mass of the solution is due to HNO3. To calculate the actual mass of HNO3 in the solution, we need to multiply the total mass of the solution (103.8g) by the percentage of HNO3 (70.0%).

Mathematically, this is (103.8g) x (70.0/100), resulting in a mass of approximately 72.66g HNO3. Therefore, this 103.8g sample of nitric acid solution contains approximately 72.66g of HNO3.

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Answer:

2; Single Displacement

Explanation:

Sublimation is best described as a solid converting to a gas. Sublimation occurs when a substance moves directly from the solid to the gas phase without first passing through the liquid phase.

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Answer:

Explanation:

The strongest bases are hydroxide will be group 1 and and group 2 metals.

A base that totally dissociates in such an aqueous solution is referred to as a strong base.

The elements which have one valence electrons placed in group 1 in the periodic table.

The hydroxides were basic by nature, and so as they move down the group, basic strength rises. This is caused by the weaker M-O bond in MOH, which can break to produce OH- ions in solution, as well as the low ionization energies of certain metals. The basic intensity of the hydroxides grows as the ionization energy drops down the group.

The strongest bases are hydroxide will be group 1 and and group 2 metals.

Therefore, the correct answer will be option (B).

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The strongest bases are the hydroxides of group 1 and group 2 metals, like NaOH and Ba(OH)2, as they fully dissociate in water. Hence, the correct option is B.

The strongest bases are known to be the hydroxides of group 1 and group 2 metals in the periodic table. Hydroxides of alkali metals (group 1) such as lithium hydroxide (LiOH), sodium hydroxide (NaOH), potassium hydroxide (KOH), rubidium hydroxide (RbOH), and cesium hydroxide (CsOH) are strong bases because they completely dissociate into their respective cations and hydroxide ions (OH-) when dissolved in water. Additionally, hydroxides of heavier alkaline earth metals (group 2), like calcium hydroxide (Ca(OH)2), strontium hydroxide (Sr(OH)2), and barium hydroxide (Ba(OH)2), are also considered strong bases due to their full ionization in aqueous solutions. These substances are classified as strong electrolytes because of their ability to completely dissociate and contribute to electrical conductivity in solutions.