A homogeneous mixture is also called a

Answer:

uranium is classifide as actinide a chemical element atomic number 92 and is a solid at room temperature

Answer:

35.36 g

Explanation:

We'll begin by writing the balanced equation for the reaction. This is illustrated below:

8Fe + S₈ —> 8FeS

Next, we shall determine the mass of Fe that reacted and the mass of FeS produced from the balanced equation. This can be obtained as follow:

Molar mass of Fe = 56 g/mol

Mass of Fe from the balanced equation = 8 × 56 = 448 g

Molar mass of FeS = 56 + 32 = 88 g/mol

Mass of FeS from the balanced equation = 8 × 88 = 704 g

SUMMARY:

From the balanced equation above,

448 g of Fe reacted to produce 704 g of FeS.

Finally, we shall determine the theoretical yield of FeS as follow:

From the balanced equation above,

448 g of Fe reacted to produce 704 g of FeS.

Therefore, 22.5 g of Fe will react to produce = (22.5 × 704)/448 = 35.36 g of FeS.

Thus, the theoretical yield of FeS is 35.36 g

Answer:

I believe that it is the 2nd option.

Explanation:

My reasonings are because C4H10O has 7 isomers. In which 4 are alcohol and the other 3 are ether.

The first option is ethers, specifically ethoxyethane.

The third option is ethers, specifically 1-methoxypropane.

The fourth option is an alcohol, specifically 1- butanol.

Therefore, leads us to the 2nd option that it is NOT an isomer of C4H10O

Answer:

[tex]V_{base}=66.7mL[/tex]

Explanation:

Hello there!

In this case, since the neutralization reaction between HI and NaOH is:

[tex]NaOH+HI\rightarrow NaI+H_2O[/tex]

Thus, as there is a 1:1 mole ratio of base to acid, it is possible to use the following mole equivalence:

[tex]n_{base}=n_{acid}\\\\M_{base}V_{base}=M_{acid}V_{acid}[/tex]

Thus, by solving for the volume of base, we obtain:

[tex]V_{base}=\frac{M_{acid}V_{acid}}{M_{base}}[/tex]

Therefore, we plug in the given data to obtain:

[tex]V_{base}=\frac{0.020M*50.0mL}{0.015M}\\\\ V_{base}=66.7mL[/tex]

Best regards!

Answer:

Zinc Carbonate

Sodium Nitrate

Answer:

Single replacement reaction (aka single displacement reaction)

Explanation:

In a single replacement reaction, one element is substituted for another in a compound to create a new compound and a new element in the products. The general form is:

A + BC --> B + AC

In the case of this question, Cr and Fe "trade places."

Answer:

the answer is c

Explanation:

Answer:

Im doing this rn :0, look at explanation ill try to help

Use different words

Have a great day!

pls give brainliest and hit the heart if this helped :3

Explanation:

The changes I observed are that when you do not use hot water, the food coloring stays at the bottom and doesn't spread to the top, but when I do use food coloring, it spreads everywhere in the water. I don't know what caused the changes I observed, but I think its because heating food coloring does something to it to make it spread, maybe hotter liquids spread faster?

Answer:

Electromagnetic spectrum

Explanation:

Telescopes are used by observers to monitor various electromagnetic radiation. Only one component of the visible radiation can be observed by each type of instrument. Telescopes, ultraviolet telescopes, optical celestial objects, and other types of telescopes are available.

Answer:

spine

Explanation:

Answer Geologists generally know the age of a rock by determining the age of the group of rocks, or formation, that it is found in. ... Relative dating places events or rocks in their chronologic sequence or order of occurrence. Absolute dating places events or rocks at a specific time.: Relative dating is used to determine a fossils approximate age by comparing it to similar rocks and fossils of known ages. Absolute dating is used to determine a precise age of a fossil by using radiometric dating to measure the decay of isotopes, either within the fossil or more often the rocks associated with it.With absolute age dating, scientists determine the absolute age of a rock in millions of years before present rather than just the age of the rock relative to the rock units around it. This information helps geologists develop more precise geological history models for the rocks and regions they study.

hope this helps u have a nice night❤️

Explanation:

I think it's either b or c

Answer:

0.58 atm

Explanation:

Step 1: Given data

Step 2: Calculate the partial pressure of CO₂

The total pressure of the gaseous mixture is equal to the sum of the partial pressures of the individual gases.

P = pN₂ + pO₂ + pCO₂

pCO₂ = P - pN₂ - pO₂

pCO₂ = 1.05 atm - 0.35 atm - 0.12 atm = 0.58 atm

Answer: 2.6 ppm

Explanation: ppm is parts per million, also 1:1000 000.

It means 1 mg in 1000 000 mg is same as 1 mg in 1000 g

Assume 2.0 litres weighs 2.0 kg = 2000 g

In one litre there is 2.6 mg Cl. You get a proportion 2.6 mg :1000 g

The concentration of chlorine is 2.6 ppm.

Concentration can be calculated in terms of Parts per million, or ppm, that is a measurement of dissolved solids in solution expressed as a ratio of the count of parts of solids/solute to one million parts of total volume.

The concentration can be calculated by using the formula:

C = m / v

where, C is concentration, m is mass and v is volume.

Calculation of concentration is shown as:

By using the formula, C = m / v

Put the values of m = 5.2 mg and v = 2 L in concentration formula.

C = 5.2 mg  / 2 L

C = 2.6 ppm

Therefore, the concentration of solution will be 2.6 ppm.

To know more about concentration click here.

https://brainly.com/question/10725862.

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Answer:

The food coloring in the hot water will most likely spread faster than the one in the cold in which can result in it turning green rather than the coloring in the cold.

Explanation:

Answer:

ummmmmmmmmm awwwwwwww u don't need anyone if that's what u mean

us single pringles need to stick together

Answer:

be yourself and just be yourself

Explanation:

Hope this helps and have a nice day:)

Answer:

30.0 mol CO₂

Explanation:

C₃H₈ + 5O₂ → 3CO₂ + 4H₂O

To answer this problem we need to convert moles of C₃H₈ into moles of CO₂: We'll do that by using the stoichiometric coefficients, using a conversion factor that has C₃H₈ moles in the denominator and CO₂ moles in the numerator:

10.0 mol C₃H₈ * [tex]\frac{3molCO_2}{1molC_3H_8}[/tex] = 30.0 mol CO₂

Answer:

12 g of 12C to three significant figures maybe?

Explanation:

tell if correct or not im sorry fi it isnt :c

Answer:

Mg-9

N-6

C-2

O-4

Ca-9

P-6

O-24

Explanation:

Answer:

fish

Explanation:

vertebrate is an animal with a spinal cord surrounded by cartilage or bone ,so example of a vertebrate is fish

Answer

2.1 x 10 ^23

fdxkjns9fhnuvypdsssssssssz89999qewv

Answer:

f a runner decreases his velocity from +20 m/s to +10 m/s, with average acceleration is -5m/s².

Explanation:

In the formation of ionic compound, atoms of different elements that have obtained a nonneutral electrical charge (either due to losing or gaining electrons, creating a charge imbalance between the negatively-charged electrons and the positively-charged protons) are attracted in such a way that their interaction would result in electrical neutrality. Group 4A elements (the "carbon group") are a sort of dividing line: Elements in groups to the left of group 4A (the metallic elements) tend to have atoms that lose electrons during ionization, thus becoming more positive; elements in groups to the right of group 4A (the nonmetallic elements) tend to have atoms that gain electrons during ionization, thus becoming more negative. This is, of course, a broad generalization, but it should suffice in helping to get a big-picture idea of how to approach binary ionic compounds such as Al2X3.

Al, or aluminum, is a metallic element in group 3A, which is to the left of group 4A. A neutral aluminum atom has three valence electrons in its outermost shell. When an aluminum atom loses these three valence electrons (thus gaining a stable, noble gas electron configuration), it becomes a positively-charged aluminum ion, Al³⁺.

Now, let's consider how this aluminum cation (a positively-charged ion) could interact with anions (negatively-charged ions) to form an electrically-neutral compound. The most straightforward interaction would be an ionic bond between Al³⁺ and X³⁻. Why? Because the charges between the one Al³⁺ cation and the one X³⁻ anion are opposite and equal in magnitude; they would thus bond in a 1:1 unit ratio to form an ionic compound with the formula AlX.

But that's not what we have here! In our ionic compound, the Al has a subscript of 2, and the X has a subscript of 3. Here's the trick with ionic compounds: Assuming that our subscripts are all simplified to the lowest whole number, an ion's charge is equivalent in magnitude to the counterion's subscript (the counterion is simply the oppositely-charged ion in a binary ionic compound). The sign of the charge will be positive for the metal ion (which conventionally comes first in the formula unit) and negative for the nonmetal ion. The subscript of X is 3 in Al₂X₃, so the charge number on the Al ion is 3. Al, a metal, forms a positively-charged ion; thus, the Al ion has a 3+ charge.

Let's do the same for X. Al has a subscript of 2, so when the X atom ionizes, its charge must have a number of 2 and be negative, i.e., a 2- charge. Conveniently, the charge on an ion of a main-group and non-transition metal element tells us which group that ion's element is in. That's because the group number of elements in the s- and p-blocks is equal to the number of valence electrons in a neutral atom in that group. A group 1A element's atom has one valence electron; a group 2A element's atom has two valence electrons; and a group 3A element's atom (like an Al atom) has three valence electrons; and so forth.

An ion gains or loses electrons so that its outermost (valence) shell is completely filled. If element X's ion exists in the X²⁻ state, then that means it takes the addition of two electrons to give the X atom a full octet (eight electrons in the valence shell). We can then conclude that a neutral atom of X must have six valence electrons since 8 - 2 = 6. Thus, X is an element in group 6A (or group 16 on the extended periodic table), the chalcogens or "oxygen family."

Indeed, the most common form of the compound aluminum oxide has the formula Al₂O₃. Aluminum also forms an ionic compound with sulfur—another group 6A element—which has the formula Al₂S₃.

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For XCO3, we must keep in mind that CO₃ as a whole is the counterion to X. The 3 is not the subscript for the CO₃ ion. CO₃, or carbonate, has a 2- charge: it can be written as (CO₃)²⁻. Here, the CO₃ ion as a group has no subscript, which might lead one to think that X must be an element from group 1A. Not so fast! It's critical to know beforehand that the carbonate ion has a 2- charge; if X were indeed a group 1A element, X would have a subscript of 2. But X has no subscript (a subscript of 1). Since the subscripts of ionic compounds are simplified to their lowest whole number ratios, that means that X must have a subscript of 2. Only then would both the subscripts of X and CO₃ be simplified to 1, as we have here. If CO₃ has a subscript of 2, that means that X is an element in group 2A (or group 2), the alkaline earth metals.

Indeed, the group 2A elemental ions magnesium (Mg²⁺) and calcium (Ca²⁺) both ionically bond with the carbonate ion to form magnesium carbonate and calcium carbonate, respectively; their respective formulae are MgCO3 and CaCO3, the same form as XCO3.

Answer: The molarity of [tex]HCl[/tex] is 0.07 M

Explanation:

According to the neutralization law,

[tex]n_1M_1V_1=n_2M_2V_2[/tex]

where,

[tex]n_1[/tex] = basicity [tex]HCl[/tex] = 1

[tex]M_1[/tex] = molarity of [tex]HCl[/tex] solution = ?

[tex]V_1[/tex] = volume of  [tex]HCl[/tex] solution = 25.0 ml

[tex]n_2[/tex] = acidity of [tex]NaOH[/tex] = 1

[tex]M_1[/tex] = molarity of [tex]NaOH[/tex] solution = 0.1000 M

[tex]V_1[/tex] = volume of  [tex]NaOH[/tex] solution = 17.5 ml

Putting in the values we get:

[tex]1\times M_1\times 25.0=1\times 0.1000\times 17.5[/tex]

[tex]M_1=0.07M[/tex]

Therefore, molarity of [tex]HCl[/tex] is 0.07 M

Answer:

If there is no resistance, current, wind, or friction on the boat, the boat would keep moving in the same direction at the same speed.

Explanation:

Newton's First Law of Motion suggests that if no external force acts upon an object, that object would continue moving in the same direction at the initial speed.

However, all objects near the surface of the earth (including the boat in this question) experience the effect of gravitational pull (an external force from the earth.) Because of these external forces, Newton's First Law of motion (when phrased in this way) would not apply to the boat.

It is frequently possible to use a more general version of this statement: if the net force on an object is zero, that object would continue moving in the same direction at the initial speed.

In other words, the object would move in the same direction at the initial speed as long as all the external forces on that object balance each other.

Assume that there is no resistance, current, wind, or friction on the boat. After the engine of the boat is turned off, the following would be the forces on this boat:

If the water is sufficiently calm, these two forces would balance one another. The external force on this boat would be zero. Hence, the boat would keep moving in the same direction at the same speed.

Sound travels fastest through solids.

it would be cold gasses because of how air at 0 is faster then at 100

Answer:

decomposition reaction.

Explanation:

It is a decomposition reaction as potassium chlorate compound breaks to form potassium chloride and oxygen. This reaction requires heat as source of energy to break down the compound so it is endothermic in nature.

Pangea was formed in the Paleozoic Era