Figure A 5. In figure A each capacitor has C = 4.00 µF and Vab =+28.0 V. Calculate a) the charge on each capacitor, b) the potential difference across each capacitor, c) the potential difference between point a and b d) the energy stored on each capacitor, e) the total energy stored for the entire circuit, f) the percentage difference calculated result ofd and e. Note: % difference accepted value- experimental value / accepted value X 100%. If the % difference below 10% is accepted. if the % difference is more 10% is not accepted, meaning your solution is something wrong. Therefore, repeat your solutions. This is an absolute value, considered a positive value.

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Figure A 5. In figure A each capacitor has C = 4.00 µF and Va =+28.0 V. Calculate a) the charge on each capacitor, b) the potential difference across each capacitor, c) the potential difference between point a and b d) the energy stored on each capacitor, e) the total energy stored for the entire circuit, f) the percentage difference calculated result of d and e. Note: % difference accepted value- experimental value / accepted value X 100%. If the % difference below 10% is accepted. if the % difference is more 10% is not accepted, meaning your solution is something wrong Therefore, repeat your solutions. This is an absolute value, considered a positive value.