What are the two categories of chemical sedimentary rock?

Answer : The mass of the cart is, 146 Kg.

Solution : Given,

Force = 250 N

Angle = [tex]35^o[/tex]

Acceleration = [tex]1.4m/s^2[/tex]

Formula used :

[tex]F\times \cos \theta=m\times a[/tex]

where,

F = force

[tex]\theta[/tex] = angle

a = acceleration

m = mass of the cart

Now put all the values in the above formula, we get the mass of the cart.

[tex]250N\times \cos (35^o)=m\times (1.4m/s^2)[/tex]

[tex]m=146Kg[/tex]

Therefore, the mass of the cart is, 146 Kg.

The Correct Answer is A. If you look at the periodic table of elements, you may notice that Chlorine (Cl, #17), Fluorine (F, #9), and Bromine (Br, #35) are all in the same family (or column). That is group VIIA or 17. VII is 7 in roman numerals and that is the number of valence electrons.

Hope that helps!

Polonium has an atomic number of 84 in the periodic table and is solid at 20 degrees Celsius. It is an alpha emitter which is used to extract a thin film for stainless steel. They are used for antistatic devices and a good source of heat for space machines. The correct electron configuration of a polonium atom is 1s2 2s2 2p6 3s2 3p6 3d10 4s2 4p6 4d10 5s2 5p6 4f14 5d10 6s2 6p4. What is lacking in his configuration is the presence of the f sub shell. He should have added 4f14 before 5d10 because if he did not add it, it would give another element.

Answer: Option (D) is the correct answer.

Explanation:

Heat absorbed by a substance to change the state of matter is known as latent heat. This heat is utilized to break the bonds between atoms of the substance so that they can undergo phase change.

So, when water boils at 100 degree Celsius then temperature will remain constant unless and until all the water changes into vapor. As it is the latent heat that breaks the bonds between hydrogen and oxygen atoms of water so that liquid state can change into gaseous state.

Since latent heat is a hidden heat, that is why, it does not get reflected and there is no change in temperature due to it.

Thus, we can conclude that it is true that temperature will remain at 100°C until all the vapor condenses for a sample of water vapor at 101°C as it cools.

Final answer:

There seems to be a mix-up as PbS2 • 4H2O doesn't correspond to an accurate chemical compound in this context. Instead, the focus is on the formation of lead sulfate (PbSO4) from reactions involving lead dioxide (PbO2) and sulfur dioxide (SO2) in an acidic medium.

Explanation:

The question seems to be a bit confused in its specifics since PbS2 • 4H2O is not a correctly formulated chemical compound in relation to common lead compounds. However, referring to the provided reactions and information, it seems the question might revolve around lead sulfate (PbSO4) and its reactions. When lead dioxide (PbO2) reacts with sulfur dioxide (SO2) and hydrogen ions in solution, lead sulfate (PbSO4) is formed along with water. This can be seen in the first provided reaction which is essentially about the conversion of lead compounds in acidic medium.

There seems to be a misunderstanding or typo in the compound mentioned, as PbS2 • 4H2O doesn't align with the reactions and compounds discussed, which focus on lead sulfate and its formation. Chemistry often requires precise formulation to accurately represent compounds and reactions.

The reactions provided illustrate the importance of proper chemical notation and understanding chemical compounds involved in electrochemical reactions, like those in lead-acid batteries.

Answer: The correct answer is Option A.

Explanation:

There are 3 subatomic particles present in an atom. They are: protons, electrons and neutrons.

Protons carry positive charge, electrons carry negative charge and neutrons does not carry any charge.

Any neutral atom has equal number of protons and electrons.

Mass number is defined as the sum of number of neutrons and number of protons present in an atom. It is represented as A.

Mass number = Number of neutrons + Number of protons

We are given:

Number of positively charged particles = Number of protons = 8

Mass number = 15

Number of neutrons = 15 - 8 = 7

Hence, the correct answer is Option A.

Answer: The correct answer is Option E.

Explanation:

For the given options:

This reaction is defined as the chemical reaction in which a single substance breaks down into two or more simpler substances.

[tex]AB\rightarrow A+B[/tex]

This reaction is defined as the chemical reaction in which exchange of ions takes place.

[tex]AB+CD\rightarrow AD+CB[/tex]

This reaction is defined as the chemical reaction in which an acid reacts with a base to produce a salt and water molecule.

[tex]HX+BOH\rightarrow BX+H_2O[/tex]

This reaction is defined as the chemical reaction in which more reactive element displaces a less reactive element from its chemical reaction.

[tex]AB+C\rightarrow CB+A[/tex]

This reaction is defined as the chemical reaction in which substances combine in their elemental state to form a single compound.

[tex]A+B\rightarrow AB[/tex]

For the given chemical reaction:

[tex]N_2+3H_2\rightarrow 2NH_3(g)[/tex]

This reaction is considered as a synthesis reaction because hydrogen and nitrogen are combining in their elemental state to produce ammonia molecule.

Hence, the correct answer is Option E.

In the ground state, a hydrogen atom's electron occupies the 1s orbital, which is the lowest energy state and has a spherically symmetrical probability distribution.

The electron of a ground state hydrogen atom would occupy the 1s orbital. The ground state refers to the lowest energy state available to an electron in an atom.

In hydrogen's case, this is the 1s state, which has n = 1 (the principal quantum number indicating the energy level) and l= 0 (the orbital angular momentum quantum number, which for s orbitals is always zero).

This state is also spherically symmetrical, meaning the electron probability distribution around the nucleus is even in all directions.

Furthermore, the energy order of orbitals shows that 1s is lower than 2s, 2p, 3s, etc., indicating that electrons fill the 1s orbital before any others when in the ground state.

Answer:

Option C) Na2SO4 and Na2HAsO4

Explanation:

The solubility of salts can be affected by many things (pH, temperature, etc), this is why when comparing the solubility of two or more salts it's important to establish the conditions.

In this case the graph was made for changes in Temperature, so the first thing is to identify the T=40°C and then, which curves cross at that point.

As can be seen, the red curve (Na2HAsO4) and the blue curve (Na2SO4 ) cross at 40°C indicating that those compounds have similar solubilities at that temperature.

A white spherical buoy with vertical blue bands is used as a marker that indicates safe water on all sides in maritime settings.

A marker that indicates safe water on all sides is typically labeled as a spherical, white buoy with vertical blue bands. These navigational aids are universal in maritime settings and they are also called a Safe Water Mark, or sometimes a fairway, mid-channel, or sea buoy. They indicate that there is safe, navigable water all around the buoy and are not indicative of danger otherwise.

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A marker that indicates safe water on all sides typically has a green color. In nautical navigation, "green" markers, often in the form of buoys or beacons, are used to indicate the safe, navigable side of a channel or waterway.

Green is frequently the color of a signpost that denotes safe water on both sides. "Green" markings, frequently in the shape of buoys or beacons, are used in maritime navigation to denote the side of a canal or waterway that is safe and navigable. A green marker indicates a safe passageway that is to the side of the marker where it is located. These markings are used by seafarers and boaters to make sure they remain in the deep and secure area of the river. On the opposing side, red markings are utilized to denote the area that is safe to cross through. This system is a component of the lateral navigation aids that provide secure and efficient navigation on waterways.

Color Codes for Navigational Aids: Different color codes and markers are used in maritime navigation to give mariners crucial information and aid in their safe navigation of waterways. These "buoys," as these markers are frequently called, are used to designate the locations of hazards, safe channels, and other navigational data.

Safe Water Markers: One category of these navigational aids is safe water markers. They serve to alert mariners to the presence of safe, navigable water. In order to direct vessels away from hazards like shallow places, rocks, or reefs, safe water signs are often set in open, deep waters.

Green: Green is the traditional and universally accepted hue used for safe water markers. A green marker tells seafarers they can safely navigate around the buoy on all sides. The color green is related to the idea of "go" or safe passage. The green buoy, which designates the middle of a navigable channel, is open to vessel traffic on either side.

Topmarks and Shapes: In addition to their distinctive colors, safe water buoys may also include topmarks that stand out to mariners—shapes or symbols that are attached to the buoy's top. These extra characteristics are used to aid seafarers in distinguishing between various marker kinds and to offer more navigational information.

Regulation Compliance: The International Association of Lighthouse Authorities (IALA) and the U.S. Coast Guard in the United States have established standards for the usage of green markers to denote safe water. To promote reliable and safe navigation on the water, these organizations offer standards and guidelines for the use of navigational markers and aids.

In conclusion, seafarers can cruise around a green nautical marker without worrying about running aground or coming across hazards because it shows that they are in an area of safe water. It is a crucial component of the system that aids in ensuring the safe passage of ships across waterways all over the world.

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Answer:

The nucleus and the electron cloud.

Explanation:

The protons and neutrons are in the nucleus and the electrons and in the electron cloud. Hope this helps!

Hello!

We have an isobaric transformation, that is, when a certain mass under pressure maintains its constant pressure, on the other hand, as we increase the temperature, the volume increases and if we lower the temperature, the volume decreases and vice versa .

We have the following data:

V1 (initial volume) = 3.75 L

V2 (final volume) = 6.52 L

T1 (initial temperature) = 100 K

T2 (final temperature) =? (in Kelvin)

We apply the data to the formula of isobaric transformation (Gay-Lussac), let us see:

[tex]\dfrac{V_1}{T_1} =\dfrac{V_2}{T_2}[/tex]

[tex]\dfrac{3.75}{100} =\dfrac{6.52}{T_2}[/tex]

[tex]3.75*T_2 = 100*6.52[/tex]

[tex]3.75\:T_2 = 652[/tex]

[tex]T_2 = \dfrac{652}{3.75}[/tex]

[tex]\boxed{\boxed{T_2 \approx 173.87\:K}}\Longleftarrow(final\:temperature)\end{array}}\qquad\checkmark[/tex]

_________________________

I Hope this helps, greetings ... Dexteright02! =)

The fusion reaction in the sun's core that converts mass into other forms of energy is known as the proton-proton chain reaction. This process involves the combination of four hydrogen nuclei to form one helium nucleus and the difference in mass is released as energy according to Einstein's equation E=mc^2.

The overall fusion reaction that converts mass into energy in the core of the sun is known as nuclear fusion, specifically a process called the proton-proton chain reaction. This is a series of nuclear reactions which results in the combination of four hydrogen nuclei (protons) to form one helium nucleus, with the release of two positrons, two neutrinos (usually called solar neutrinos), and six photons. This is represented by the following reaction:

4H -> He + 2e+ + 2v + 6γ

The mass of the four hydrogen atoms is greater than that of the helium atom produced and, according to Einstein’s equation E=mc^2, the difference in mass is released as energy. The released energy powers the sun and produces the sunlight that we see.

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The sun's energy is generated from a complex process of nuclear fusion, called the proton-proton chain, where four hydrogen nuclei are transformed into a helium nucleus, releasing a significant amount of energy as per Einstein's equation E=mc².

The overall nuclear fusion reaction that occurs in the sun involves the conversion of hydrogen nuclei (protons) into helium. This begins when high temperatures within the sun's core cause two protons to combine, forming a deuterium nucleus, an isotope of hydrogen with one proton and one neutron. Further, through a process called the proton-proton chain, more reactions occur which lead to the transformation of four hydrogen nuclei into one helium nucleus, releasing significant energy in the process.

Throughout this process, due to the conversion of mass into energy as postulated by Einstein's equation, E=mc², a tremendous amount of energy is released. Energy in fusion reactions is released in forms such as light (photons), neutrinos, and other particles. This overall process of fusion is the principal source of energy in the sun.

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Answer : The correct option is, (c) three places to the right

Explanation :

The conversion used is:

[tex]1km=1000m[/tex]

For example :

The conversion of 3.1 km into m.

As, [tex]1km=1000m[/tex]

So, [tex]3.1km=\frac{3.1km}{1km}\times 1000m=3100m[/tex]

From this we conclude that, when we are converting from kilometers to meters then decimal is moved three places to the right.

Hence, the correct option is, (c) three places to the right

Answer: Osteoblasts!

Explanation:

They form bone.

The number of grams, of S₈, would be produced, assuming 98 % yield is 47.1 grams.

Mass is the quantity of matter in a physical body.

The chemical reaction is

8H₂S +4O₂ ---> S₈ + 8H₂O

Molar ratios

8 mol H₂S : 4 mol O2 : 1 mol S8

Convert 50.0 grams of H2S into moles

moles = mass in grams / molar mass

Molar mass H₂S = 2 x 1g/mol + 32.1 g/mol = 34.1 g/mol

Moles = 50.0 g / 34.1 g/mol = 1.466 moles H2S

Convert 60.0 g of O₂ into moles

Molar mass O2 = 2 x 16g/mol = 32.0g/mol

moles = 60.0g / 32.0 g = 1.875 moles O2

State-limiting reagent

Theoretical ratio: 8 mol H₂S / 4 mol O2 = 8/4 = 2/1 = 2

Actual ratio 1.466 mol H₂S / 1.875 mol O2 < 2

=> H₂S is the limiting reagent (it is consumed completely whilce some O2 remains unreacted).

Determine the moles of S₈ produced from 1.466 moles H₂S

1 mol S₈ / 8 mol H₂S x 1.466 mol H₂S  = 0.18325 mol S₈

Convert 0.18325 mol S to mass

mass = number of moles x molar mass

molar mass S₈ = 8 mol x 32.1g/mol = 256.8 g/mol

mass = 0.18325 mol x 256.8 g/mol = 47.1 grams

Thus, the mass of the S₈ is 47.1 g.

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Answer:

C6H14

Explanation:

Odyssey ware

Answer:

The substance is not shown, so I'll answer the question in general terms.

Any substance can exist as a gas or a solid but not a liquid below the triple point pressure. As can be seen in the figure attached, below the triple point pressure there are only two possible phases, solid and gas. This means that  a solid at a pressure below the triple point pressure which is heated at constant pressure (only its temperature increase) will sublimate, that is, it transforms into gas without passing through liquid phase. Analogously, a gas at a pressure below the triple point pressure which is cooled at constant pressure (only its temperature decrease) will deposit, that is, it transforms into solid without passing through liquid phase .

Answer:

The oil is insoluble with water.

Explanation:

The water and oil do not mix, they are illustrated as immiscible. The molecules of water are polar, that is, they exhibit a small positive charge at one terminal and a small negative charge at the other terminal, and they attach with each other. The molecules of oil are non-polar, and they possess no charge. Due to this, the molecules of oil are more fascinated with each other than to the molecules of water, and the molecules of water are more fascinated towards each other than to the molecules of oil.

Answer:

Polar covalent.

Explanation:

Hello,

In this case, ionic and covalent bonds could be differentiated by subtracting the constituents' electronegativities. Thus, for iron and chlorine, we have:

[tex]\Delta E=E_{Cl}-E_{Fe}=3.2-1.9=1.3[/tex]

Hence, when such difference is less than 1.7, the bond is polar covalent as it is also greater than 0.7.

Best regards.

Answer:

A: increasing the surface area of the substance

Explanation: