Calculate the percent by volume of a solution that has 75 mL of solute dissolved in 375 mL of solution. Show your work and round your answer to the nearest whole percent.

Answer:

C.At the mountain top, the pressure inside the balloon is lower than at the new altitude.

Explanation:

The gas laws will come handy in predicting pressure, volume and temperature relationships of a given amount of gas.

Given parameters:

Volume at mountaintop = 5.0L

New volume at altitude = 25.0L

New pressure at altitude = 0.18atm

Pressure at mountaintop = ?

Here we are dealing with pressure and volume relationships between two given gases. The best law that gives a good prediction of what happen is the Boyle's law.

The law states that "the volume of a fixed mass(mole) of a gas varies inversely as the pressure changes, if the temperature is constant".

 Mathematically;

               P₁V₁  = P₂V₂

P₁ is the pressure at mountaintop

P₂ is the pressure at new altitude

V₁ is the volume at mountaintop

V₂ is the volume at new altitude.

From the definition of Boyle's law, we can clearly conclude that at the new altitude, the gas expands due to low pressure and will attain a new volume.

The pressure at mountaintop;

       P₁ x 5  = 25 x 0.18

        P₁ = 0.9atm

We can clearly see that at the mountaintop, the balloon has a higher pressure that confines the helium gas inside the balloon to a lower space.

An inverse relationship thus exists between volume and pressure

Answer: 82.9kPa

Explanation:

Gas pressure can be measured in several units, they include psi (pound per square inch), kPa (kilo pascal).

Recall that:

1 Kilopascal (kPa) = 0.14503773779 psi

So, let Z kPa = 12.02 psi

To get the value of Z, cross multiply

12.02 psi x 1kPa = 0.14503773779 psi x Z kPa

12.02 = 0.14503773779Z

Divide both sides by 0.14503773779

12.02/0.14503773779 = 0.14503773779Z/0.14503773779

82.9 kPa = Z

Thus, the 12.02 psi is equivalent to 82.9 kPa

Final answer:

To convert 12.02 psi to kPa, multiply it by the conversion factor of 6.89476, giving 82.914 kPa.

Explanation:

The student is asking to convert gas pressure from psi to kPa, which involves using a conversion factor. The value in psi needs to be multiplied by the conversion factor to find the equivalent pressure in kPa. According to the given information, 1 psi is approximately equal to 6.89476 kPa.

To perform the conversion from 12.02 psi to kPa:

Multiply 12.02 psi by the conversion factor of 6.89476 kPa/psi.

12.02 psi  imes 6.89476 kPa/psi = 82.914 kPa.

So, the pressure of 12.02 psi can be converted to 82.914 kPa.

Answer:

73.49 atm

Explanation:

The balance chemical equation is as follow,

   C₃H₈ + 5 O₂  →  3 CO₂ + 4 H₂O

Given Data:

Temperature  =  T = 373 K

Volume  =  V  =  2.5 L

Gas Constant  =  R  =  0.0821 atm.L.mol⁻¹.K⁻¹

To find:

Pressure: P = ?

Formula:

P V = n R T

P = n R T / V

Here we also need to find number of mole,

According to balanced equation,

 1 mole of C₃H₈ on combustion gives  =  3 moles of CO₂

So,

2 moles of C₃H₈ on combustion will give  =  X moles of CO₂

Solving for X,

X  =  2 moles of C₃H₈ × 3 moles of CO₂ ÷ 1 mole of C₃H₈

X =  6 moles of CO₂

Moles  =  n  =  6 mol  

Solution:

P = 6 mol × 0.0821 atm.L.mol⁻¹.K⁻¹ × 373 K ÷ 2.5 L

 P =  73.49 atm

Answer: Xe, Kr, Ar, Ne

Explanation:

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Answer:

C

Explanation:

Non-polar and symmetrical accurately describes the molecular polarity and charge distribution in CO2.

Answer: Location 3 is warmer than location 2 and 1

Explanation:

The statement "Location 3 is warmer than Location 2 and Location 1" is most likely correct based on their positions relative to the lake.

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The specific gravity of a substance is a measure of its density in comparison to water. In your case, the specific gravity of the mineral would be 2.6 because its density is 2.6 times that of water.

Answer

The specific gravity of a substance is the ratio of the density of a substance to the density of a reference substance, often water. Given that the density of the mineral in question is 2.6g/cm^3, which is equal to the density of the mineral in water, we can say that the specific gravity is 2.6. This is because the specific gravity is a dimensionless quantity; it has no units. So, the specific gravity of a substance with a density identical to that of water would be 1. Since in your case, the mineral density is 2.6 times that of water, the specific gravity would be 2.6.

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Answer:

k

Explanation:

Answer:

What is the following

Explanation:

Answer:

we need options to give you an answer

Explanation:

The biome with leaves that change color and fall off during autumn is the temperate forest. Here, deciduous trees adapt to seasonal changes with their leaves turning brilliant colors before shedding, a process triggered by environmental cues such as shorter days and cooler temperatures.

The biome where leaves change color and fall off as winter approaches is known as the temperate forest. Within this biome, deciduous trees dominate due to their unique adaptations to moderate annual rainfall and temperatures. As autumn arrives, these trees prepare for the dormant winter period.

The process begins with a reduction in chlorophyll production, due to shorter days and cooler temperatures, which allows the carotenoid pigments to become visible, showcasing beautiful orange, red, and yellow leaves.

Eventually, the trees shed their leaves to conserve resources, and they remain leafless throughout the winter. This is followed by a resurgence of growth in the spring as sunlight increases and temperatures rise, triggering new leaf growth using stored nutrients.

Answer:

Materials can be classified as solids, liquids, or gases based on whether their shapes and volumes are definite or variable. LIQUIDS: Have a definite volume but change shape · Particles are close together, but not held as tightly as a solid.

Explanation:

Answer: v2=331.289mL

Explanation:

Formula for ideal gas law is p1v1/T1=p2v2/T2

P1=782.3mmHg

P2=769mmHg at STP

V1=362.4mL

V2=?

T1=273+34.4=307.4k

T2=273k at STP

Then apply the formula and make v2 the subject of formula

V2= 782.3×362.4×273/760×307.4

V2=77397006.96/233624

V2=331.289mL

Answer:

(d) Heat flows from warmer to colder objects.

**wrong

answer is C

Answer:

heat flows from warmer to colder objects

Answer:

Explanation:

Well use the combines gas law to evaluate this question;

P₁V₁/T₁ = P₂V₂/T₂     (Remember that at sea level the pressure is usually 1 atm)

1 * V₁ / 294.25 = 0.72 * V₂ / 277.95     (NB: Temperatures have to be in Kelvin)

V₁ / 294.25 * 277.95     = 0.72 V₂

0.945 V₁ = 0.72 V₂

0.945/0.72 V₁ = V₂

1.312 V₁ = V₂

The volume (V2) at 3000 m altitude will be 1.312 bigger than the initial volume at sea level.

A gas made up of atoms escapes through a pinhole 0.225times as fast as gas. Write the chemical formula of the gas.

Answer:

Explanation:

To solve this problem, we must apply Graham's law of diffusion. This law states that "the rate of diffusion or effusion of a gas is inversely proportional to the square root of its molecular mass at constant temperature and pressure".

Mathematically;

                 [tex]\frac{r_{1} }{r_{2} } = \frac{\sqrt{m_{2} } }{\sqrt{m_{1} } }[/tex]

r₁ is the rate of diffusion of gas 1

r₂ is the rate of diffusion of gas 2

m₁ is the molar mass of gas 1

m₂ is the molar mass of gas 2

let gas 2 be the given H₂;

   molar mass of H₂ = 2 x 1 = 2gmol⁻¹

rate of diffusion is 0.225;

  i .e r1/r2 = 0.225

          0.225 = √2  /  √ m₁

           0.225 = 1.414 / √ m₁

       √ m₁  = 6.3

           m₁  = 6.3²  = 39.5g/mol

The gas is likely Argon since argon has similar molecular mass

Answer:

1 mole

Explanation:

Given parameters:

number of moles of H₂O = 6moles

Number of moles of Al  used up= 4 moles

Number of moles of Al given = 5 moles

Unknown:

Number of moles of Al left unreacted = ?

Solution

To solve this problem, we are going to use the mole approach. The balanced chemical equation furnishes us with an overview of the amount of reactants used in the reaction.

 The balanced equation is shown below:

            2Al + 3H₂O → Al₂O₃ + 3H₂

we can also see that 4 moles of aluminium was used up in the reaction.

The amount of unreacted aluminum = Number of moles given - number of moles used

                    = 5 mole - 4 mole

                     = 1 mole

Answer:

the gas pressure is

Explanation:

.... 11.00

Answer:

Mole

Explanation:

Answer:

The SI unit for the amount of a substance is mole.

Explanation:

SI unit stands for International System of units. It is the standard system of unit of measurements.

SI unit defines the amount of substance to be proportional to the number of entities present. It's unit for the amount of substance is mole. Also, the unit symbol for mole is mol.

Answer:

C Hydrogen bonding is the main force that attracts water molecules to

one another.

Explanation:

Hydrogen bonding affects water molecules because, it is the main force which holds and attracts water molecules to one another.

Answer:

Momentum=mass*velocity

Explanation:

Answer:  It's a term that describes a relationship between the mass and velocity of an object, and we can see this when it is written in equation form, p = mv, where p is momentum, m is mass in kg and v is velocity in m/s. Because momentum is a vector quantity, this means it has both magnitude and direction.

Explanation:

Answer:

Explanation:

To show the sequence of electrons filling sublevels in an atom, the Aufbau's principle is one of the tenets that must be satisfied to write a proper notation.

         1s 2s 2p 3s 3p 4s 3d 4p 5s 4d 5p 6s 4f 5d 6p 7s 5f e.t.c

Final answer:

The Aufbau principle is a rule that determines the electron configuration of atoms by filling orbitals in order of increasing energy.

Explanation:

The Aufbau principle is a rule used to determine the electron configuration of atoms.
According to the Aufbau principle, electrons fill orbitals in order of increasing energy, starting from the lowest energy level.

This means that the 1s orbital is filled before the 2s orbital, and the 2p orbital is filled after the 2s orbital.

Answer:

chyba  się zniszczy

Explanation:

ponieważ sie film prześwietli

Answer:

1600cm3

Explanation:

From the question given, we obtained the following:

Density = 2.70g/cm3

Mass = 4.32kg :we need to convert the mass to grams

Mass = 4.32kg = 4.32 x 1000 = 4320g

Volume =?

Recall : Density = Mass /volume

Volume = Mass /Density

Volume = 4320/2.70

Volume = 1600cm3

The volume occupied by a block of aluminum which weighs 4.32 kg is 1600cm³.

Volume = mass (g) ÷ density (g/cm³)

Mass in grams = 4.32 × 1000 = 4320g

Volume = 4320g ÷ 2.70g/cm³

Volume = 1600cm³

Therefore, the volume occupied by a block of aluminum which weighs 4.32 kg is 1600cm³.

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The most common method astronomers use to determine the composition of stars, planets, and other objects is spectroscopy. This process utilizes instruments with a grating that spreads out the light from an object by wavelength. This spread-out light is called a spectrum. Every element has a unique fingerprint that allows researchers to determine what it is made of.

The fingerprint often appears as the absorption of light. Every atom has electrons, and these electrons like to stay in their lowest-energy levels. But when photons carrying energy hit an electron, they can push it to higher energy levels. This is absorption, and each element’s electrons absorb light at specific wavelengths related to the difference between energy levels in that atom. But the electrons want to return to their original levels, so they don’t hold onto the energy for long. When they emit the energy, they release photons with exactly the same wavelengths of light that were absorbed in the first place. An electron can release this light in any direction, so most of the light is emitted in directions away from our line of sight. Therefore, a dark line appears in the spectrum at that particular wavelength.  

Because the wavelengths at which absorption lines occur are unique for each element, astronomers can measure the position of the lines to determine which elements are present in a target. The amount of light that is absorbed can also provide information about how much of each element is present.

Answer:

Mg has two valence electrons  

Explanation:

Na has only one valence electron, so it readily donates that electron to other atoms to achieve an octet.

Mg must lose two valence electrons to get an octet. It takes extra energy to remove the second electron. In addition, the two electrons are in a filled s subshell, which has added stability.

Answer:

The percentage of mass of nitrogen in ammonium sulfate is 21.20%

Explanation:

Solving this problem, we need to know that nitrogen is a gas and also we need to calculate the molar mass of the compound which (NH4)2SO4

Mm of (NH4)2SO4 =

N - 14.0067

H - 1.00784

S - 32.065

O - 15.999

Mm = (14.0067)2+(1.00784*4)2+32.065+(15.999*4)

Note: Because there are 4*2=8atoms of hydrogen and 4 atoms of oxygen and 2 atoms of nitrogen in the compound

Mm = 28.0134+ 8.06272+32.065+63.996

= 132.13712g/mol

Since there are two atoms of nitrogen in ammonium sulfate

The mm of N = 2 * 14.0067

= 28.0134g/mol

Therefore, to calculate percent massof N in (NH4)2SO4

We divide the mm of N by mm of (NH4)2SO4 multiplied by 100

i. e. 28.0134/132.14

= 0.212

= 0.212 * 100

= 21.20% mass of nitrogen

The activities describe the use of technology in science is as follows:

The use of technology in science involves various activities that enhance observation, data collection, analysis, and modeling. The activities that describe the use of technology in science include:

1. Looking at cells through a microscope: Microscopes are essential technological tools that enable scientists to observe and study microscopic structures, such as cells and microorganisms.

2. Viewing stars through a telescope: Telescopes are advanced optical instruments that allow astronomers to study distant celestial objects, stars, galaxies, and other astronomical phenomena in detail.

3. Developing a computer model for earthquakes: Creating computer models using specialized software and simulations is a crucial aspect of scientific research, particularly in fields like seismology, where scientists model earthquake behavior to understand and predict seismic activity.

Activities that do not directly involve technology include:

1. Observing a plant with the unaided eye: This activity relies solely on natural vision without the use of technological instruments.

2. Creating a blank data table by hand in a notebook: While this activity may involve manual recording, it doesn't necessarily involve the use of advanced technology. However, the data recorded in these tables can later be processed using technology.

In summary, the use of technology in science is evident in activities that rely on advanced tools and instruments, data analysis software, and computer modeling to enhance scientific research and understanding.

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p=mv

where p = momentum

m = mass

v = velocity