A person's heartbeat is 79 beats per minute. If his/her heart beats 3.1e9 times in a lifetime, how long (in whole years) does the person live?

Hi There!!

Your best answer choice is:

C. It converts electric energy to another form of energy.

Because, A electric toaster is considered a resistor because it coverts some of it energy into another form which is heat. a resistor is something that limits the flow of an electric current through a circuit.

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[tex]_{Loserbrazts}[/tex]

An electric toaster is considered a resistor because it converts electric energy to another form of energy. Therefore, the correct option is option C.

A "resistor" is a passive components electric device that is utilized to limit and regulate the electric current that flows in electrical circuits. It also allows us to provide a variable amount of resistance to something like an electrical circuit. Resistors are the most significant and widely utilized components in an electrical circuit.

The primary function of a resistor would be to decrease current flow but also voltage inside a specific area of the circuit. It is constructed of copper wires wound around with a ceramic rod and covered with insulating paint. Toaster  converts electric energy to another form of energy.

Therefore, the correct option is option C.

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law stating that the pressure of a given mass of an ideal gas is inversely proportional to its volume at a constant temperature

Answer:

Boyle's law is a pressure versus volume relationship. The law was discovered by Robert Boyle in the 17th century. It states the pressure of a fixed amount of a gas is inversely proportional to its volume at a constant temperature.

Explanation:

pressure versus volume relationship

Answer:

Explanation:

Please tell me if im wrong  

Question 6. 6. In a reaction between vinegar and antacid tablets, the antacid is the limiting reagent. At constant pressure and temperature, three tablets produce 600 cm3 of gas. What volume will two tablets produce?  

(Points : 3)  

400 cm3  

600 cm3  

800 cm3  

1,200 cm3****  

Question 7. 7. You breathe in 3.0 L of pure oxygen at 298 K and 1,000 kPa. How many moles of oxygen did you take in? (Use the ideal gas law: PV = nRT where R = 8.31 L-kPa/mol-K.)  

(Points : 3)  

0.05 moles  

1.21 moles*****  

2.42 moles  

20.0 moles  

Question 8. 8. Consider a gas at STP in a container of 22.4 L. If you apply the ideal gas law, what is the approximate value of n?  

(Points : 3)  

0.5  

8.31  

224****  

1  

Question 9. 9. Water boils at 100°C. What is that temperature on the Kelvin scale?  

(Points : 3)  

213 K  

325 K****  

333 K  

373 K  

Question 10. 10. The average speeds of gas molecules in cylinders A, B, C, and D are 0.001 m/s, 0.05 m/s, 0.1 m/s, and 0.5 m/s, respectively. Which cylinder contains gas that is closest to absolute zero?  

(Points : 3)  

A  

B  

C******  

D  

I suck at chemistry

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Answer:

[tex]V=0.048m^3[/tex]

Explanation:

Hello,

In this case, since the volume is computed by multiplying the given dimensions as follows:

[tex]V=0.2m*0.4m*0.6m[/tex]

The result is shown in cubic meters since each meter is also added:

[tex]V=0.048m^3[/tex]

Best regards.

Answer:

B) They aggregate together.

Explanation:

A nonpolar molecule refers to a molecule in which there is no charge separation that means no positive or negative poles are created

Also it cannot create the bonds of hydrogen with the water molecules that results in the disturbance of normal structure of water that makes the water to create a fixed cage of molecules that are hydrogen bonded around it

Therefore in the given case, the option B is correct

Answer:

The correct answer is 16.6 mL

Explanation:

The density of a substance is defined as its mass per unit of volume. Thus:

density = mass/volume

So, to calculate volume: volume = mass/density

Given:

density= 10.5 g/cm³

mass= 5.25 g

We calculate the volume occupied by silver as follows:

volume= mass/density= (5.25 g)/(10.5 g/cm³)= 0.5 cm³

Moreover, we know that 1 cm³= 1 ml. So, a mass of 5.25 g of pure silver occupies a volume of 0.5 ml. If we add the mass of silver to a graduated cylinder with 16.1 mL of water, the final volume will be given by the initial volume of water plus the volume occupied by silver:

volume level = 16.1 mL + 0.5 mL = 16.6 mL

The density of the pure silver substance is defined as the mass per volume. The water level of the cylinder will rise to 16.6 mL after silver pellets are added to the cylinder.

The density of the silver metal can be explained by the division of the mass of the silver pellets by the volume of the water in the cylinder. The density has been seen in inverse relation to the volume and has been decreasing with an increase in volume.

Similarly, if the volume of the solution is decreased then the density of the substance will increase. As D ∝ 1 /V.

The density of the substance is given as:

Density (D) = mass ÷ volume

Given,

Density (D) = 10.5 g/cm³

Temperature = 20°C

Mass of silver pellets = 5.25 grams

The volume of water in the graduated cylinder = 16.1 mL

The volume of the silver is calculated as:

Volume = mass ÷ density

V = 5.25 g ÷ 10.5 g/cm³

= 0.5 cm³

= 0.5 mL (1 cm³ = 1 mL)

The volume level is calculated by adding the volume of silver and water as: 16.1 mL + 0.5 mL = 16.6 mL

Therefore, 16.6 mL is the volume.

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B

i hope this helped!

None of the above are correct.

Albert Einstein supported the use of radioactive elements for medical diagnostic purposes.

I hope this helps, good luck!

Answer:It is a mixture

Explanation:

If it is pure sugar it’s neither but if it has water it is a homogeneous mixture

Mixture are produced by the physical combination of two or more components.  A compound is formed by the chemical bonding of atoms. Sugar water is an example of homogeneous mixture.

Compounds are formed by the combination of atoms or molecules through chemical bonding. There are various kinds or compounds based on the type bonding such as ionic, covalent, metallic etc.

Mixtures are formed by the physical combination of two or more components. However, mixture can be chemically bonded particles. There are two types of mixtures. Homogeneous mixtures are formed by uniform distribution of particles.

Homogenous mixtures appear to be one compound since it have only one phase. Heterogenous mixtures are exhibiting separated phases and the particles are randomly distributed here.

Sugar water is formed by dissolving sugar on water where, the sugar is completely dissolved in water and thus is an example  of homogenous mixture.

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Answer:

Metals if you dont beleive me here is a picture to prove it

Explanation:

Most of us are solids, shiny, malleable, ductile, and good conductors of heat and electricity. They are metals. The correct option is A).

Metals are those periodic table elements that are malleable, pliable, and ductile because they have valence electrons in their outermost shells, metals are those periodic table elements that are malleable, pliable, and ductile.

They are also exceedingly reactive. In the middle of the periodic table, they can be found. Examples are magnesium, titanium, iron, zinc, and bronze.

Metals can be used to create a variety of items, including jewelry, via foil paper gates. The world's most practical metal is still steel. Non-metals and metalloids do not have these given characteristics.

Thus, the correct option is A) metals.

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Answer:

the nervous system

Explanation:

Answer:

central nervous system

Explanation:The brain and the spinal cord are the central nervous system. The nerves that go through the whole body make up the peripheral nervous system.

Answer:

Training officers in how to properly collect evidence

Explanation:

Forensic science is an interesting branch of science that involves the use of scientific procedures to solve a crime case. It encompasses collection of physical evidence from the crime scene and analyzing it in a laboratory using scientific means.

A forensic scientist is the individual in charge of performing these scientific procedures. His/her major role is to run the scientific analysis of the physical evidence brought in by the officers, however, he/she can also perform the task of training officers in how to properly collect evidence, in order not to damage the evidence or render it invalid for use.

Answer:

volatile

Explanation:

They are also poor conductors of electricity for they tend to form negative ions by gaining or sharing electrons [to be stable] unlike the metals. Hence, they have high ionization energy and high electronegativity values. In addition, nonmetals are usually volatile, which means that they evaporate easily

Answer:

7.28×10¯⁴ L

Explanation:

From the question given above, the following data were obtained:

Volume of Nickel (mL) = 0.728 mL

Volume of Nickel (L) =.?

The volume of nickel in litres (L) can be obtained by converting 0.728 mL to L. This can be obtained as follow:

1000 mL = 1 L

Therefore,

0.728 mL = 0.728 mL × 1 L / 1000 mL

0.728 mL = 7.28×10¯⁴ L

Therefore, 0.728 mL is equivalent to 7.28×10¯⁴ L.

Answer:

a. x3 and x4 are the first to agree to two significant figures

b. x4 and x5 are the first to agree to three significant figures

Explanation:

8.30 x 10⁻⁵ = x1(0.100)²

8.30 x 10⁻⁵ = 0.01x1

x1 = 8.30 x 10⁻⁵/0.01 = 0.0083

8.30 x 10⁻⁵ = x2(0.100 + 0.0083)²

8.30 x 10⁻⁵ = (0.01172889)x2

x2 = 8.30 x 10⁻⁵/0.01172889

x2 = 0.007076543475128

8.30 x 10⁻⁵= x3 (0.100 + 0.007076543475128)²

8.30 x 10⁻⁵ = 0.011465386162581)x3

x3 = 8.30 x 10⁻⁵/0.011465386162581

x3 = 0.007239180505832

8.30 x 10⁻⁵ = x4 (0.100 + 0.007239180505832)²

8.30 x 10⁻⁵ = (0.011500241835562) x4

x4 = 8.30 x 10⁻⁵/0.011500241835562

x4 = 0.007217239531723

8.30 x 10⁻⁵ = x5 (0.1 + 0.007217239531723)²

8.30 x 10⁻⁵ = (0.011495536452803) x5

x5 = 8.30 x 10⁻⁵/0.011495536452803

x5 = 0.007220193710904

From the above results;

a. x3 and x4 are the first to agree to two significant figures

b. x4 and x5 are the first to agree to three significant figures

Answer:

The formula of the unknown compound = SF₆

Explanation:

The law of multiple proportion states that if two elements A and B combine to form more than one compound, then the various masses of A which combine with a fixed mass of B are in simple multiple ratio.

In the compound SF₄, the mass ratio of sulfur to fluorine is 1.00 : 2.37

In the unknown compound, the mass ratio of sulfur to fluorine is 1.00 : 3.55

Since the number of sulfur atoms in the two samples are fixed;

The ratio of fluorine in the unknown sample and SF₄ = 3.55/2.37 = 3/2

Therefore, the number of fluorine atoms in the unknown sample = 4 * 3/2 = 6 atoms

The formula of the unknown compound = SF₆

The formula of the unknown compound = SF₆

In the compound SF₄, the mass ratio of sulfur to fluorine is 1.00 : 2.37

In the unknown compound, the mass ratio of sulfur to fluorine is 1.00 : 3.55

Since the number of sulfur atoms in the two samples are fixed;

Now

The ratio of fluorine in the unknown sample and SF₄ = [tex]3.55\div 2.37 = 3\div 2[/tex]

So, the number of fluorine atoms in the unknown sample should be

= [tex]4 \times 3\div 2 [/tex]

= 6 atoms

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Answer:

[tex]m=8.7g[/tex]

Explanation:

Hello,

In this case, it is widely known that when measurements with different significant figures are put under mathematical operations, the final result must be displayed with the same amount of significant figures of the shortest measurement, thus, due to the fact that 5.5 g has two significant figures only the result is consequently shown with two significant figures as well as shown down below:

[tex]m=5.5g+2.27g+0.8995g\\\\m=8.6695g[/tex]

By rounding the first six to seven due to the fact that the next six is greater than five, according to rounding rules, the result is:

[tex]m=8.7g[/tex]

Best regards.

Answer:

The body gain the energy through the digestion of the food we eat and when it is breakdown it releases energy.

Explanation:

The food we consumed is digested by the activities of acids and enzymes in the stomach.

Carbohydrates are the primary source of body energy.

When it is eaten, it digestion starts from the mouth when it mixed with the saliva released from the salivary gland and salivary amylase acts on it.

When it's get to the stomach/ intestine, it is further breakdown through the activities of enzymes into glucose.

The stomach and the intestine absorb the glucose and release it into the blood stream. Glucose can be use as energy source or stored later and insulin help to release it.

Answer:

Explanation:

When the food substances (for example carbohydrate) that contain chemical potential energy are broken down, they produce glucose. Carbohydrate is the major source of glucose for the body, the digestion of carbohydrate begins in the mouth in the presence of the enzyme called amylase.

When glucose is produced from carbohydrate breakdown, the glucose is picked up by insulin which allows the glucose enters the cells. In the cells, these glucose molecules undergo glycolysis (glucose breakdown/catabolism) in order to produce ATP (high energy molecules that provides energy for all cell). When ATP is produced, the cells use the ATP to carry out several body and biological functions. These multi-enzyme steps explains how the body gains this energy.

Answer:

D

Explanation:

two different types of elements combine to form an acid

Answer:

The answer would be 2.000 x 10^-30

Explanation:

I had taken the test and got it correct.

Answer:

The empirical formula would be Fe2o3

Explanation:

you first take the grams or the percent of each element, then transform them from grams to moles.

After getting the number of mols you want to divide each mol by the lowest number of mol.

EX) for this problem the number of moles of Fe(iron) would be 1.253 mol and the moles for the oxygen would be 1.881 mol... so you take the lowest, 1.253, and divide both to get what's called a mol fraction.

1.253/ 1.253 =1Fe

1.881/ 1.253= 1.5

now we want a whole number since we're finding the formula of a compound... and since there is a 1.5 you would multiple that by 2 giving you 3 for oxygen and giving you 2 for iron.

then these whole numbers will give you the subscripts that's needed for your empirical formula :)

- Hope this helps!!!

Answer:

Follows are the solution to this question:

Explanation:

In first point:

Ammonia volumetric flow =   [tex]{105} \frac{m3}{h} = \frac{7}{240} \ \frac{m^3}{ s}[/tex]

Waste gas mole density, dw[tex]= 0.0407 \ \frac{mol}{L} = {40.7} \ \frac{mol}{m^3}[/tex]

Original ammonia mole proportion in receiving waste gas [tex]= 0.120[/tex]

Mole density for ammonia [tex]= 0.120 \times 40.7[/tex]

                                            [tex]= 4.884 \ \ \frac{ \ mol}{ m^3 \text {of its incoming waste}}[/tex]

Therefore, ammonia rate is extracted from its incoming stream

[tex]= NH_3 \text{molecule density} \times \text {Volume flow rate} \\\\ = 4.884\times (\frac{7}{240})\\\\ = 0.14245 \ \ NH_3 \ \ \text{moles per second}[/tex]

As 90 percent ammonia is removed, that ammonia removal rate:

[tex]= 0.9 \times 0.14245 \\\\ = 0.128 \ \ NH_3 \ \text{moles per second} \\\\ = 460.8 \ \ \frac{mol}{h}[/tex]  

In second point:

Ammonia possessing water content [tex]= 0.35\ \ \frac{NH_3}{mole}[/tex]  

Consequently, to maintain 0.128 mol ammonia:

water moles necessary [tex]= \frac{1}{0.35} \times 0.128[/tex]

                                       [tex]= 0.365 \ mol \ water[/tex]

Water atomic weight=[tex]18 g[/tex]

Therefore, mass needed of water [tex]= 18 \times 0.365[/tex]

                                                         [tex]= 6.57 \ g[/tex]  

In this required water range of competencies stream rate:

[tex]= \frac{\text{necessary weight}}{\text{water density}} = \frac{6.57}{0.99} \\\\ = 6.63 \frac{ml}{second} \\\\ = 6.63 \times 10^6 \times 3600 \\\\ = 0.023868 \frac{m^3}{h} \\\\ = 23.868 \frac{L}{h}[/tex]

In third point:

fresh ammonia mol fraction [tex]= \frac{ \text{moles of ammonia from of the outgoing stream} }{\text{maximum moles}}[/tex]

Amino ammonia moles = 10 per cent of the ammonia moles inside an incoming stream = 0.10×initial concentration of the mole:

[tex]= 0.1 \times 4.884\\\\ = 0.484 \ moles[/tex] in an outgoing stream.  

Its total outflow moles = the total ammonia moles at the original ammonia:

[tex]\text{stream moles} = 40.7- (90\% \times 4.884)[/tex]

                     [tex]= 36.3[/tex]

So new ammonina mole fraction:

[tex]= \frac{0.4884}{36.3} \\\\ = 0.01345[/tex]

Explanation:

1. During a titration, 50.0 ml of 0.2M NaOH were required to neutralize 50.0ml of H3PO4. What's the concentration of the H3PO4 solution?

Answer:

Using CaVa / CbVb = Na / Nb. The correct option is D.

3. If atoms from two different elements react to form a compound, the element with a higher _______ will have a negative oxidation number.

Answer:

The correct option is electronegativity. For example, in H2O. Oxygen would have a negative oxidation number of -2 because it is highly electronegative compared to hydrogen. Also, a negative oxidation number means it gains electrons.

4. During the electrolysis of an aqueous solution of sodium nitrate, a gas forms at the anode, what gas is it?

Answer:

At the anode, OH- ions are preferentially discharged. They lose electrons there and form oxygen gas. The correct option is A. Oxygen

5. The lithium-ion in a lithium-ion battery moves from one side to the other by

Answer:

The correct option is passing through the separator. The lithium ions, moves from the anode to the cathode when in use.

6. The use of water in a heat exchanger is taking advantage of water's

Answer:

The correct option is it's High specific heat capacity. Since heat exchangers requires transfer of heat, there is need for a medium that is able to carry this heat. The hydrogen bonds in water provides it with an abnormal high specific heat capacity.

7. Which of the following goes through the largest volumetric change?

Answer:

Whenever ice melts it occupies the same energy as when it was frozen. When water is heated from 1oC to 99oC there is no change in volume. Volume of water increases abruptly at it boils at 100oC  and changes its state from liquid water to steam. When water freezes it's volume increases by approximately 9%. The correct option is A.

Kindly Note:

Next time, You don't have to ask everything in a single question. Nobody would want to go through the stress of answering them all. I omitted number 2 intentionally.

Answer:

Smaller molecules migrate through the gel more quickly and therefore travel further than larger fragments that migrate more slowly and therefore will travel a shorter distance. As a result the molecules are separated by size.

Explanation:

Answer:

The molar heat capacity at constant volume is 21.62 JK⁻¹mol⁻¹

The molar heat capacity at constant pressure is 29.93 JK⁻¹mol⁻¹

Explanation:

We can calculate the molar heat capacity at constant pressure from

[tex]C_{p,m} = \frac{C_{p} }{n}[/tex]

Where [tex]C_{p,m}[/tex] is the molar heat capacity at constant pressure

[tex]{C_{p} }[/tex] is the heat capacity at constant pressure

and [tex]n[/tex] is the number of moles

Also [tex]{C_{p} }[/tex] is given by

[tex]{C_{p} } = \frac{\Delta H}{\Delta T}[/tex]

Hence,

[tex]C_{p,m} = \frac{C_{p} }{n}[/tex] becomes

[tex]C_{p,m} = \frac{\Delta H }{n \Delta T}[/tex]

From the question,

[tex]\Delta H[/tex] = 229.0 J

[tex]n[/tex] = 3.00 mol

[tex]\Delta T[/tex] = 2.55 K

Hence,

[tex]C_{p,m} = \frac{\Delta H }{n \Delta T}[/tex] becomes

[tex]C_{p,m} = \frac{229.0}{(3.00) (2.55)}[/tex]

[tex]C_{p,m} =[/tex] 29.93 JK⁻¹mol⁻¹

This is the molar heat capacity at constant pressure

For, the molar heat capacity at constant volume,

From the formula

[tex]C_{p,m} = C_{v,m} + R[/tex]

Where [tex]C_{v,m}[/tex] is the molar heat capacity at constant volume

and [tex]R[/tex] is the gas constant ([tex]R[/tex] = 8.314 JK⁻¹mol⁻¹)

Then,

[tex]C_{v,m} = C_{p,m} - R[/tex]

[tex]C_{v,m} = 29.93 - 8.314[/tex]

[tex]C_{v,m} =[/tex] 21.62 JK⁻¹mol⁻¹

This is the molar heat capacity at constant volume

Answer:

22.2mL de la solución concentrada se requieren

Explanation:

Lo primero que debemos hacer para solucionar este problema es convertir el 5.00% m/v de CaCl₂ a molaridad de Cl⁻:

5g/100mL = 50g/L

Masa molar CaCl₂: 110.98g/mol.

50g * (1mol / 110.98g) = 0.45 moles CaCl₂/L = 0.45M* 2 = 0.90M Cl⁻ (Se multiplica por dos ya que son dos moles de Cl⁻ por mol de CaCl₂

Ahora, si deseas 4.00L de una solución 5.00x10⁻³M, necesitas:

4.00L * (5.00x10⁻³ moles Cl⁻ / L) = 0.02 moles Cl⁻

Como estas moles vienen de la solución 0.90M:

0.02 moles Cl⁻ * (1L / 0.90 moles) = 0.0222L =

Given :

Mass of [tex]H_2SO_4[/tex] is 571.6 g per liter .

Density of solution , [tex]\rho=1.329\ g/cm^3[/tex] .

To Find :

a. Mass percentage

b. Mole fraction

c. Molality

d. molarity of H2SO4 in this solution.

Solution :

Molar mass of [tex]H_2SO_4[/tex] , m = 1329 g/mol .

a ) Mass of [tex]H_2SO_4[/tex] contain in 1 liter is 1329 g .

[tex]mass \ \%=\dfrac{571.6}{1329}\times 100=43.01 \%[/tex]

b ) Moles of [tex]H_2SO_4[/tex] = [tex]\dfrac{571.6\ g}{98\g/mol}=5.83\ mol[/tex] .

Moles of [tex]H_2O[/tex] = [tex]\dfrac{1329-571.6\ g}{18\ g/mol}=42.08\ mol[/tex] .

Mole fraction [tex]=\dfrac{5.83}{5.83+42.08}=0.12[/tex] .

c ) Molarity of [tex]H_2SO_4[/tex]  [tex]=\dfrac{5.83\ mol}{1 \ L}=5.83\ M[/tex] .

Hence , this is the required solution .

Answer:

187.3mL of 2.65M KOH you must add

Explanation:

The pH of the buffer of acetic acid is obtained as follows:

pH = pKa + log [Acetate] / [Acetic Acid]

Where [] could be moles of acetate and acetic acid

Replacing:

5.24 = 4.76 + log [Acetate] / [Acetic Acid]

0.48 = log [Acetate] / [Acetic Acid]

3.01995 = [Acetate] / [Acetic Acid](1)

As concentration of acetic acid is 0.796M and volume is 830mL, the moles of acetic buffer is:

0.830L * (0.796 moles / L) = 0.6607 moles

Thus:

0.6607 moles = [Acetate] + [Acetic Acid] (2)

Replacing (2) in (1):

3.01995 = 0.6607 moles - [Acetic Acid] / [Acetic Acid]

3.01995 [Acetic Acid] = 0.6607 moles - [Acetic Acid]

4.01995 [Acetic Acid] = 0.6607 moles

[Acetic Acid] = 0.16435 moles

[Acetate] = 0.6607 moles - 0.16435 moles = 0.49635 moles

The reaction of acetic acid with KOH to produce Acetate is:

Acetic acid + KOH → Acetate + Water

That means the moles of KOH you add, are the moles of acetate.

To add 0.49635 moles of 2.65M of KOH you need:

0.49635 moles * (1L / 2.65 moles) = 0.1873L =