![Today's agenda: Capacitance. You must be able to apply the equation C=Q/V. Capacitors: parallel plate, cylindrical, spherical. You must be able to calculate. - ppt download Today's agenda: Capacitance. You must be able to apply the equation C=Q/V. Capacitors: parallel plate, cylindrical, spherical. You must be able to calculate. - ppt download](https://images.slideplayer.com/20/6018810/slides/slide_9.jpg)
Today's agenda: Capacitance. You must be able to apply the equation C=Q/V. Capacitors: parallel plate, cylindrical, spherical. You must be able to calculate. - ppt download
![Figure shown a parallel-plate capacitor having square plates of edge a and plate-separation d. T... - YouTube Figure shown a parallel-plate capacitor having square plates of edge a and plate-separation d. T... - YouTube](https://i.ytimg.com/vi/vAg72OWCGmM/maxresdefault.jpg)
Figure shown a parallel-plate capacitor having square plates of edge a and plate-separation d. T... - YouTube
![A capacitor is constructed from two square metal plates 3.04 cm on a side, separated by 0.26 mm. The gap between the plates is filled with two dielectrics of equal size as A capacitor is constructed from two square metal plates 3.04 cm on a side, separated by 0.26 mm. The gap between the plates is filled with two dielectrics of equal size as](https://study.com/cimages/multimages/16/diagram4272632679537469861.png)