Answer:
848.1 g/mol
Explanation:
Data given:
Standard of atomic mass of Ca = 50 amu
molar mass of Aluminium Acetate = ?
Solution:
Relative atomic mass represented by Ar. It is ratio of actual mass with respect to the 1/12th mass of C-12 but here Ca-50 is standard.
Formula of Aluminium Acetate = Al(CH₃COO)₃
In order to calculate Ar
first we will calculate 1/50 of Ca
As we know
mass of 1/12 of C-12 = 1.993 x 10⁻²⁶/12 = 1.661 x 10⁻²⁷ Kg
So, for Ca-50
mass of 1/50 of Ca-50 = 1.993 x 10⁻²⁶/50 = 3.986 x 10⁻²⁸ Kg
Now
Relative Atomic mass for element X = rest mass of "X"/ 3.986 x 10⁻²⁸ Kg . . . . . . (1)
First we have to know the relative atomic masses of Aluminium, carbon, hydrogen, oxygen atoms involve in Aluminium Acetate formula with respect to new standard Ca-50
By using equation-1 we can calculate Ar for which we have reported rest masses of atoms as below
Rest mass of Aluminium = 4.48 x 10⁻²⁶ Kg
Rest mass of carbon = 1.993 x 10⁻²⁶ Kg
Rest mass of hydrogen = 1.608 x 10⁻²⁷ Kg
Rest mass of oxygen = 2.657x10⁻²⁶ Kg
Now put values in equation 1 for each atom
Ar for Aluminium = 112.5 amu
Ar for Carbon= 50 amu
Ar for hydrogen = 4 amu
Ar for Oxygen = 66.6 amu
Now find the molar mass ofAl(CH₃COO)₃
molar mass of Aluminium Acetate = Al(CH₃COO)₃
Al(CH₃COO)₃ = 112.5 + 3 (50 + 3(4) + 50 + 66.6 +66.6)
Al(CH₃COO)₃ = 112.5 + 3 (50 + 12 + 50 + 66.6 +66.6)
Al(CH₃COO)₃ = 112.5 + 3 (245.2)
Al(CH₃COO)₃ = 112.5 + 735.6
Al(CH₃COO)₃ = 848.1 g/mol
molar mass of Aluminium Acetate = 848.1 g/mol
First of all, what is electrolysis?
Electrolysis is the process of breaking down ionic substances using direct current.
Important points about electrolysis
→ Ionic substances contain particles called ions.
→ Electricity is the flow of electrons or ions. For electrolysis to work, the compound must contain ions. The ions must be free to move for electrolysis to occur and it can happen by melting or dissolving an ionic substance in water.
→ Positively charged ions move to the negative electrode. They receive electrons and are reduced. The positive ions move towards the negative electrode because they want to cancel each other out.
→ Negatively charged ions move to the positive electrode. They lose electrons and are oxidised. The substance that is broken down is called the electrolyte (an electrolyte is just a liquid or solution that can conduct electricity) . The negative ions move towards the positive electrode because they want to cancel each other out.
Metal ions form at the cathode and non-metal ions form at the anode
How I remember if an element is oxidised or reduced is by remembering OIL RIG
OIL = Oxidation is Loss (of electrons)
RIG = Reduction is Gain (of electrons)
1) The first step would be to clean the metal ring and sand it down because when the metal atoms from the electrolyte are deposited onto the ring, they will form a weak bond and they may simply 'fall' off. Also this could affect conductivity and the whole experiment. The more things you do accurately now, the more accurate your result will be.
2) You want to put the solution you are given in to the tank your going to be using.
3) This is basically the main part, you want to set up the circuit, I have attached a diagram at the bottom to show you the circuit. The copper rod will be the anode and the metal ring will be a cathode (ignore the elements).
4) Now turn on the circuit and you will start to see the solution spilt with the the solution now being split some going to the anode and some going the cathode.
5) Then a thin layer should form on the electrode.
Hope this helps :)
You
dissolve a spoonful of sugar in water.
Bread goes
brown in the toaster.
You take an
ice lolly out of the freezer and it strats to melt.
Frost forms on
the grass an a cold night.
You strike a
match to light a Bunsen burner.
THANKS!!!