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Electric cells

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Damion Lawrence

Electric Cell is that is capable of changing some form of energy, such as chemical energy into electricity.

Education
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Presenter: Damion Lawrence, M.Sc., B.Ed.
 Electric Cell vs a Battery  Principle of operation of electric cell  Categories of electric cells  Primary Cell  Secondary Cell  Evolution of the electric cell  Electric Cells in Series  Electric Cells in Parallel  Electric Cells in series- Parallel  Internal Resistance  Difference between potential difference and electromotive force  Activities: 1, 2, 3, 4, 5 & 6  References
 Electric Cell - An electric cell is a device that converts chemical energy into electrical energy.  Battery - Is an electrical energy source consisting of two or more electric cells connected together.
If two electrode plates of different conducting material (e.g. copper and zinc) are placed in a solution (the electrolyte) of salts, acids or alkaline, a voltage will appear between them.
Electric cells fall into two category. These are: 1. Primary cells and 2. Secondary cells
These are electric cells that cannot be recharged electrically. This cell can only be replenished by renewal of the active materials (i.e. putting pellets of sal ammoniac into the electrolyte).
1. Cheap 2. Requires little maintenance
1. Cannot be recharged electrically 2. Incapable of supplying heavy currents. 3. More cells are needed for a given output voltage 4. The cell cannot be used continuously due to the effects of polarization. 5. Has a high internal resistance due to resistance of the plates and the electrolyte.
1. These batteries are used to operate components such as flashlights, watches, radios, clocks, remote control, toys, games, etc.
1. Simple Leclanche/ cell 2. Alkaline cell 3. Silver Oxide cell 4. Mercury cell 5. Lithium cell
These are electric cells that may be recharge electrically.
Chemical energy is converted into electrical energy when the cell is discharging, and electrical energy is converted chemical energy when the cell is being charged.
1. It can be recharge 2. Capable of supplying heavy current 3. Higher voltage per cell 4. Lower internal resistance 5. Longer lasting
1. They are expensive 2. Lacks mechanical strength 3. Self discharging 4. Plates shed easily 5. Require careful maintenance
1. Used in extreme of high temperature and in conditions where vibration is experienced. 2. Stand -by- supplies 3. Motor vehicles etc.
1. Lead-acid cell 2. Zinc chlorine cell 3. Nickel iron cell 4. Lithium iron sulfide cell 5. Nickel cadmium cell 6. Sodium Sulfide cell 7. Nickel zinc cell 8. Plastic cell 9. Alkaline cell 10. Solar cell
The effective voltage is increased when electric cells are connected in series. To find effective voltage ET = E1 + E2 …+ EN. the current remains the same IT=I1=I2= I3
Calculate the effective voltage of the combination of electric cells connected in series in the diagram below
To find effective voltage E = V1 + V2 +V1 + V2 E =1.5V + 1.5V+1.5V+1.5V E =6V
1. Current increases when cells are connected in parallel To find effective current IT = I1 + I2……+ IN 2. while the voltage remains the same. E1 = E2 = E3 NB: Cells of different potential such as voltage and current should never be connected in parallel.
Given that a cell has a current rating of 3A and connected in parallel to a cell of identical current and voltage rating. Calculate the total current output.
To find effective current IT = I1 + I2 IT =3A + 3A IT =6A
1. Both voltage and current increases when cells are connected series-parallel. 2. This combination increases the life of the battery. 3. To find effective voltage ET = E1 + E2 …+ EN 4. To find effective current IT = I1 + I2……+ IN
Given the arrangement of the series-parallel Cells combination below. Calculate the effective voltage.
Since two 1.5V electric cells are connected in each branch The total voltage in each branch is E=1.5V+1.5V=3V(series connected). Therefore the effective voltage is 3V(since the load is connected across the two branches) The effective current is IT = I1 + I2 IT = 4A+4A=8A
 Every cell has an internal resistance due to the resistance of the plates and the electrolyte.  when cell is connected to an external circuit current flows and there is a voltage drop across the internal resistance and this is why Potential difference is less than the EMF because of internal resistance.  When a battery fails, it is typically because it has built up enough internal resistance that it can no longer supply a useful amount of power to an external load.
Calculating the internal resistance of a cell when given the current, e.m.f and p.d r = e.m.f - p.d I Example 1: A cell has an e.m.f of 1.52 V When it is connected to the load, the terminal voltage falls to 1.45 V and a current 2mA is flows. What is the value of the internal resistor?
Given E= 1.52 V V=1.45 V I=2A r = 1.52 V- 1.45 V 2mA r = 35Ω
It is impossible to directly measure the internal resistance of a battery, but it can be calculated from current and voltage data measured from a circuit. When a load is applied to a battery the internal resistance can be calculated from the example we worked here .
Electromotive Force (e.m.f )  difference in electric potential, or voltage, between the terminals of a source of electricity, e.g., a battery from which no current is being drawn  Open circuit voltage  Larger than the p.d value Potential Difference (p.d.)  the difference in electrical charge between two points in a circuit expressed in volts  closed circuit voltage  smaller than the e.m.f value
An Electric Cell is : a. a power generating device which converts the stored chemical energy into electrical energy. b. a device which converts solar energy into electrical energy c. a device which converts electrical energy into chemical energy d. a power generating device which converts electrical energy into stored chemical energy.
What is the difference between a secondary cell and a primary cell? a. Primary cells can be recharged electrically and a secondary cells cannot b. Secondary cells can be recharged electrically and a primary cells cannot c. Both cells can be recharge electrically d. Both cells cannot be recharge electrically
When cells connected in series: a. The current increases b. Both voltage and current will increase c. The effective voltage decreases d. The effective voltage increases
the total voltage for the arrangement of electric cells above is: a. 1.5V b. 3V c. 4.5V d. 3.38V
When cells are connected in parallel: a. The effective voltage increases b. The current increases c. Both voltage and current will increase d. The effective voltage decreases
All are advantages of a secondary cell EXCEPT: a. It can be recharge b. Capable of supplying heavy current c. Longer lasting d. Requires little maintenance
Electromotive Force. Retrieved from: https://www.youtube.com/watch?v=cbSKkrzdXe4 How batteries work - Adam Jacobson. Retrieved from: https://www.youtube.com/watch?v=9OVtk6G2TnQ How do Batteries Work? (With Narration) | Mocomi Kids Retrieved from: https://www.youtube.com/watch?v=gWKOjncBMCQ

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Electric cells

  • 2.  Electric Cell vs a Battery  Principle of operation of electric cell  Categories of electric cells  Primary Cell  Secondary Cell  Evolution of the electric cell  Electric Cells in Series  Electric Cells in Parallel  Electric Cells in series- Parallel  Internal Resistance  Difference between potential difference and electromotive force  Activities: 1, 2, 3, 4, 5 & 6  References
  • 3.  Electric Cell - An electric cell is a device that converts chemical energy into electrical energy.  Battery - Is an electrical energy source consisting of two or more electric cells connected together.
  • 4. If two electrode plates of different conducting material (e.g. copper and zinc) are placed in a solution (the electrolyte) of salts, acids or alkaline, a voltage will appear between them.
  • 5.
  • 6. Electric cells fall into two category. These are: 1. Primary cells and 2. Secondary cells
  • 7. These are electric cells that cannot be recharged electrically. This cell can only be replenished by renewal of the active materials (i.e. putting pellets of sal ammoniac into the electrolyte).
  • 8. 1. Cheap 2. Requires little maintenance
  • 9. 1. Cannot be recharged electrically 2. Incapable of supplying heavy currents. 3. More cells are needed for a given output voltage 4. The cell cannot be used continuously due to the effects of polarization. 5. Has a high internal resistance due to resistance of the plates and the electrolyte.
  • 10. 1. These batteries are used to operate components such as flashlights, watches, radios, clocks, remote control, toys, games, etc.
  • 11. 1. Simple Leclanche/ cell 2. Alkaline cell 3. Silver Oxide cell 4. Mercury cell 5. Lithium cell
  • 12. These are electric cells that may be recharge electrically.
  • 13. Chemical energy is converted into electrical energy when the cell is discharging, and electrical energy is converted chemical energy when the cell is being charged.
  • 14. 1. It can be recharge 2. Capable of supplying heavy current 3. Higher voltage per cell 4. Lower internal resistance 5. Longer lasting
  • 15. 1. They are expensive 2. Lacks mechanical strength 3. Self discharging 4. Plates shed easily 5. Require careful maintenance
  • 16. 1. Used in extreme of high temperature and in conditions where vibration is experienced. 2. Stand -by- supplies 3. Motor vehicles etc.
  • 17. 1. Lead-acid cell 2. Zinc chlorine cell 3. Nickel iron cell 4. Lithium iron sulfide cell 5. Nickel cadmium cell 6. Sodium Sulfide cell 7. Nickel zinc cell 8. Plastic cell 9. Alkaline cell 10. Solar cell
  • 18.
  • 19. The effective voltage is increased when electric cells are connected in series. To find effective voltage ET = E1 + E2 …+ EN. the current remains the same IT=I1=I2= I3
  • 20. Calculate the effective voltage of the combination of electric cells connected in series in the diagram below
  • 21. To find effective voltage E = V1 + V2 +V1 + V2 E =1.5V + 1.5V+1.5V+1.5V E =6V
  • 22. 1. Current increases when cells are connected in parallel To find effective current IT = I1 + I2……+ IN 2. while the voltage remains the same. E1 = E2 = E3 NB: Cells of different potential such as voltage and current should never be connected in parallel.
  • 23. Given that a cell has a current rating of 3A and connected in parallel to a cell of identical current and voltage rating. Calculate the total current output.
  • 24. To find effective current IT = I1 + I2 IT =3A + 3A IT =6A
  • 25. 1. Both voltage and current increases when cells are connected series-parallel. 2. This combination increases the life of the battery. 3. To find effective voltage ET = E1 + E2 …+ EN 4. To find effective current IT = I1 + I2……+ IN
  • 26. Given the arrangement of the series-parallel Cells combination below. Calculate the effective voltage.
  • 27. Since two 1.5V electric cells are connected in each branch The total voltage in each branch is E=1.5V+1.5V=3V(series connected). Therefore the effective voltage is 3V(since the load is connected across the two branches) The effective current is IT = I1 + I2 IT = 4A+4A=8A
  • 28.  Every cell has an internal resistance due to the resistance of the plates and the electrolyte.  when cell is connected to an external circuit current flows and there is a voltage drop across the internal resistance and this is why Potential difference is less than the EMF because of internal resistance.  When a battery fails, it is typically because it has built up enough internal resistance that it can no longer supply a useful amount of power to an external load.
  • 29. Calculating the internal resistance of a cell when given the current, e.m.f and p.d r = e.m.f - p.d I Example 1: A cell has an e.m.f of 1.52 V When it is connected to the load, the terminal voltage falls to 1.45 V and a current 2mA is flows. What is the value of the internal resistor?
  • 30. Given E= 1.52 V V=1.45 V I=2A r = 1.52 V- 1.45 V 2mA r = 35Ω
  • 31. It is impossible to directly measure the internal resistance of a battery, but it can be calculated from current and voltage data measured from a circuit. When a load is applied to a battery the internal resistance can be calculated from the example we worked here .
  • 32. Electromotive Force (e.m.f )  difference in electric potential, or voltage, between the terminals of a source of electricity, e.g., a battery from which no current is being drawn  Open circuit voltage  Larger than the p.d value Potential Difference (p.d.)  the difference in electrical charge between two points in a circuit expressed in volts  closed circuit voltage  smaller than the e.m.f value
  • 33.
  • 34. An Electric Cell is : a. a power generating device which converts the stored chemical energy into electrical energy. b. a device which converts solar energy into electrical energy c. a device which converts electrical energy into chemical energy d. a power generating device which converts electrical energy into stored chemical energy.
  • 35. What is the difference between a secondary cell and a primary cell? a. Primary cells can be recharged electrically and a secondary cells cannot b. Secondary cells can be recharged electrically and a primary cells cannot c. Both cells can be recharge electrically d. Both cells cannot be recharge electrically
  • 36. When cells connected in series: a. The current increases b. Both voltage and current will increase c. The effective voltage decreases d. The effective voltage increases
  • 37. the total voltage for the arrangement of electric cells above is: a. 1.5V b. 3V c. 4.5V d. 3.38V
  • 38. When cells are connected in parallel: a. The effective voltage increases b. The current increases c. Both voltage and current will increase d. The effective voltage decreases
  • 39. All are advantages of a secondary cell EXCEPT: a. It can be recharge b. Capable of supplying heavy current c. Longer lasting d. Requires little maintenance
  • 40. Electromotive Force. Retrieved from: https://www.youtube.com/watch?v=cbSKkrzdXe4 How batteries work - Adam Jacobson. Retrieved from: https://www.youtube.com/watch?v=9OVtk6G2TnQ How do Batteries Work? (With Narration) | Mocomi Kids Retrieved from: https://www.youtube.com/watch?v=gWKOjncBMCQ