Answer:
B. 3'
Explanation:
Polymerization is the process of forming large molecules by joining together many small molecules. The small molecules are known as the monomers, and the macromolecules are called polymers.
There are two(2) types of polymerization.
a. addition polymerization
b. condensation polymerization
Polymerization is characterized by eliminating small molecules such as water, carbon(IV)oxide, methanol e.t.c.
In complex compounds, polymerization starts at the 3' end of the template.
Data:
M (Molar Mass) of C2H6
C = 2*12 = 24 amu
H = 6*1 = 6 amu
---------------------
MM C2H6 = 24+6 = 30 g/mol
P (pressure) = 1.6 atm
V (volume) = 12.7 L
<span>R = 0,082 atm .L/mol.K
n (</span>Number of mols) →
![n = \frac{m}{MM} m (mass) = ? T = 24ºC Celsius to Kelvin TK = TºC + 273 TK = 24 + 273 TK = 297 By the equation of state of the gases or equation of Clapeyron, we have: [tex]P*V = n*R*T](https://tex.z-dn.net/?f=n%20%3D%20%5Cfrac%7Bm%7D%7BMM%7D%20m%20%28mass%29%20%3D%20%3F%20T%20%3D%2024%C2%BAC%20%20Celsius%20to%20Kelvin%20TK%20%3D%20T%C2%BAC%20%2B%20273%20TK%20%3D%2024%20%2B%20273%20TK%20%3D%20297%20%20%20%3Cspan%3EBy%20the%20equation%20of%20state%20of%20the%20gases%20or%20equation%20of%20Clapeyron%2C%20we%20have%3A%0A%20%20%20%3C%2Fspan%3E%5Btex%5DP%2AV%20%3D%20n%2AR%2AT%20)
<span>
Since </span>
<span>, we can perform the following substitution in the above Clapeyron equation:
</span>
multiply cross
Solving:
Answer:
25.03 grams of ethane gas
Explanation:
Carbon dioxide is a polar molecule whose positive center is on the carbon atom: This positive center is able to attract (and accept) the lone electron pairs present on the oxide ion (O2-). carbon dioxide is acts as a Lewis acid
A Lewis acid can accept a pair of electrons from a Lewis base. The boron in BF3 is electron poor and has an empty orbital, so it can accept a pair of electrons, making it a Lewis acid. A Lewis acid is defined as an electron-pair acceptor.
In CO molecule, there is a lone pair on both carbon and oxygen. The substance which can donate an electron pair are called Lewis base. It is clear that CO molecule can donate an electron pair and hence, it is a Lewis base. Also, CO can be BOTH a Lewis acid and base.
Oxygen is a Lewis base (that too a weak one), not a Lewis acid. REASON: It has lone pair of electrons, which can be donated to electron-deficient species (Lewis acids).
Methane is Neither a Lewis Acid or Lewis Base.
<u>Answer:</u> The volume of the gas when the pressure and temperature has changed is 0.811 L
<u>Explanation:</u>
To calculate the volume when temperature and pressure has changed, we use the equation given by combined gas law.
The equation follows:
where,
are the initial pressure, volume and temperature of the gas
are the final pressure, volume and temperature of the gas
We are given:
Conversion factor used:
1 L = 1000 mL
1 atm = 760 mmHg
![P_1=1.00atm=760mmHg\\V_1=790mL=0.790L\\T_1=37^oC=[37+273]K=310K\\P_2=695mmHg\\V_2=?L\\T_2=18^oC=[18+273]K=291K](https://tex.z-dn.net/?f=P_1%3D1.00atm%3D760mmHg%5C%5CV_1%3D790mL%3D0.790L%5C%5CT_1%3D37%5EoC%3D%5B37%2B273%5DK%3D310K%5C%5CP_2%3D695mmHg%5C%5CV_2%3D%3FL%5C%5CT_2%3D18%5EoC%3D%5B18%2B273%5DK%3D291K)
Putting values in above equation, we get:
Hence, the volume of the gas when the pressure and temperature has changed is 0.811 L
Answer:
the answer is a) organic uplift and cooler temperatures.
