Graphene is made of pure _______________.

Answer: 2175.68 J heat is required to increase the temperature of 20 grams of water by 26 degrees celsius.

Explanation:

Given: Mass = 20 g

Change in temperature = [tex]26^{o}C[/tex]

The standard value of specific heat of water is [tex]4.184 J/ g^{o}C[/tex]

Formula used to calculate the heat energy is as follows.

[tex]q = m \times C \times \Delta T[/tex]

where,

q = heat energy

m = mass of substance

C = specific heat of substance

[tex]\Delta T[/tex] = change in temperature

Substitute the values into above formula as follows.

[tex]q = m \times C \times \Delta T\\= 20 g \times 4.184 J/g ^{o}C \times 26^{o}C\\= 2175.68 J[/tex]

Thus, we can conclude that 2175.68 J heat is required to increase the temperature of 20 grams of water by 26 degrees celsius.

Answer:

B. Revolution is a planet's movement around the sun causing four seasons the occur. Rotation is the spinning of the planet on its axis causing day and night.

Answer:

[tex]\Rightarrow V_2 = 389mL[/tex]

Explanation:

To solve this question, we could use Charles' law since both the number of mole and pressure are constant

At STP pressure P = 760 tor and Temperature = 273K

V1 =425mL, T1 =298K and T2 =273K

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

[tex]\Rightarrow V_2 =T_2\times\frac{V_1}{T_1}[/tex]

[tex]\Rightarrow V_2 =273\times\frac{425}{298}[/tex]

Therefore, [tex]\Rightarrow V_2 = 389mL[/tex]

Answer:133.4

c

m

3

Explanation: Explanation:

Molarity is number of moles of solute divided by number of litres of solution.

M

=

n

V

Rearrange for V to give

V

=

n

M

Number of moles of KCl is the mass divided by the molar mass of KCl which is 75.5 g/mol, so (5/75.5) = 0.0667 moles.

Now plug in the numbers:

V

=

n

m

=

0.0667

0.5

=

0.1334

litres

So you need to add 0.1334 litres of 133.4

c

m

3

of water.

(NB: symbol for molarity is upper case M. m is metres).

Answer:

457.5kPa

Explanation:

Given data

V1=V2=350mL  (fixed volume )

P1=366kPa

T1= 88 degrees Celsius

P2=??

T2= 110 degrees Celsius

For the general gas equation

P1V1/T1= P2V2/T2

V1=V2

P1/T1= P2/T2

Substitute

366/88= P2/110

Cross multiply we have

P2*88=366*110

P2*88= 40260

P2= 40260/88

P2= 457.5 kPa

Hence the pressure will change to 457.5kPa

Answer:

Q = 5036.9 calories

Explanation:

Given that,

Mass, m = 167.9 g

The temperature raises from 25°C to 55°C.

The specific heat of water,c = 4.184 J/g °C

We need to find the heat added to water. We know that,

[tex]Q=mc\Delta T\\\\=167.9 \times 4.184\times (55-25)\\\\=21074.8\ J[/tex]

or

Q = 5036.9 calories

So, 5036.9 calories of heat is added.

Answer: A buffer solution is a solution made to prevent the pH level of something from changing when you add a base or an acid to it. For example, if you put a buffer solution in a pool, and then you put chlorine in it, the chlorine's effect on the PH level will be suppressed.

Answer:

the volume is 18.45 L

Explanation:

The computation of the volume when the temperature is increased to 60.0 K is shown below:

Since the gas occupied 12.3 L at a temperature of 40.0 k

And, the volume when the new temperature is 60.0 k

So, the volume is

= 60.0 k × 12.3 L ÷ 40.0 k

= 18.45 L

hence,  the volume is 18.45 L

Answer:

Molality = 9.498 mol  k g − 1

Explanation:

A final way to express the concentration of a solution is by its molality. The molality ( m ) of a solution is the moles of solute divided by the kilograms of solvent. A solution that contains 1.0 mol of NaCl dissolved into 1.0 kg of water is a “one-molal” solution of sodium chloride.

molality = number of moles of solute/ mass of solvent in kg

number of moles of KI = mass of KI / molar mass of KI  

number of moles of KI = 9.49.8 g / 1.00 g  m o l − 1

number of moles of KI = 9.498 moles  

molality = 9.498 moles / 1kg  

molality = 9.498 mol  k g − 1

Answer:

H₂

Explanation:

To solve this question we must find, as first, find the molar mass of the homonuclear diatomic gas using Graham's law. With the molar mass we can identify this gas

Graham's law:

[tex]\frac{V_a}{V_b} =\sqrt{\frac{m_B}{m_A} }[/tex]

Where V is the speed of the gases and m the molar mass of those:

As Va is 3.98 times Vb (And mB is molar mass of oxygen gas = 32g/mol)

[tex]3.98 =\sqrt{\frac{32g/mol}{m_A} }[/tex]

15.84 = 32g/mol / mA

mA = 2.02g/mol

As is a homonuclear diatomic gas, the molar mass of the atom is 1.01g/mol. Thus, the gas is:

Answer:

B, C

Explanation:

Hope it helps i read it all

Answer:

No, although the bean crop can grow perfectly in full sun or a little shade in very warm places. It does not mean that they will adopt the growth patterns of the cactus, especially because this plant needs constant watering (in small quantities), very constant. Beans require good drainage for their growth.

Each vegetation have its own characteristics and the power of adaptation. A green bean cannot survive in a desert like a cactus in desert without water. It can only grow thick in soil with proper water content and nutrients.

Cactus is a type of plant grow in dry regions such as deserts. It can adapt in deserts without water for long time because, the plant have enough water storage in its stem.

Domestic vegetation such as bean, pea, nuts etc ill not grow in dry regions because they cannot adapt in deserts without water. The soil in deserts is dry and have no nutrients.

These conditions prevent the growth of vegetables in desert areas. Moreover, desert have summer season only. The extreme temperature over there will cause the normal plants to diminish.

Therefore, planting green bean in deserts will not make it grow thick like a cactus plant.

To refer more about cactus, refer the link below:

https://brainly.com/question/16636755

#SPJ2

Answer: B. Hydrogen Bonding

Explanation: I got it right on castle learning lol

There are different kinds of forces. The term that identifies a type of intermolecular force is hydrogen bonding.

The three known to be types of intermolecular interactions. They  are

Hydrogen bonding is known to be an intermolecular force that takes place between two molecules. That molecule is known to have a hydrogen atom be bonded to a nitrogen, oxygen, or fluorine atom.

Learn more about Bond from

https://brainly.com/question/1420470

Answer: Carbon-14 decays quickly leaving the amount too small to measure.

Explanation:

Answer:

b

Explanation:

i did it

Answer:

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

Explanation:

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

H3PO4 + Ba(OH)2 --> Ba3(PO4)2 + H2O

so, (A) H2O + Ba3(PO4)2 is your answer.

Answer:

a

3.92

Explanation:

Answer:

13.25 M

Explanation:

Molarity is moles over liters so simply plug your values in as such:

5.30 mol ÷ 0.400 L = 13.25 M

Answer:

2.3 grams per cubic cm

Explanation:

Density is equal to mass over volume, so

23/10=2.3

Answer:

5ppm

Explanation:

there are 1 million (1,000,000) µg (micrograms or mcg) per g (gram) ("micro" means millionth). So, 4. 1 part per million (ppm) for a 1g sample is 1 µg or .

I know you said no links, but this is a converter that explained it much better than I know how to

http://www.endmemo.com/sconvert/ppmug_g.php#:~:text=%C2%BB%20Microgram%2Fgram%20Conversions%3A&text=ug%2Fg%E2%86%94ppm%201%20ug%2Fg%20%3D%201%20ppm

heres a screenshot of the site (since i understand links are awful)

Answer:

0.2 cm

Explanation:

looking at the ruler, you can see that the diameter is 0.4 cm. to get the radius, just divide by two, which gets 0.2 cm as the radius

Answer:

the nucleus

Explanation:

He proposed that the mass of an atom is concentrated in the nucleus which occupies a small volume in the center .He added that the nucleus comprises the protons and neutrons.where the neutron had no charge while the protons had charge of +1

Answer:

the nucleus

Explanation:

Answer:

G - H2SO4

Explanation:

two hydrogen atoms and 4 oxygen atoms

Todo en un estado sólido de materia tiene una forma y una longitud distintas. El volumen de un objeto es la cantidad de espacio que ocupa. Un sólido es un bloque de madera que conserva su forma y volumen cuando se coloca sobre una mesa.

Hope that helps!!!

¡Espero que ayude!

Answer:

164.088 g/mol

Explanation: hope this helps

Answer:

Calcium nitrate

Explanation:

164.088 g/mol

give me the brainliest plss