For a TeflonM.filled, parallel-plate capacitor, the area of the plate is 52.0 cm? and the spacing between the plates is 0.30 mm. If the capacitor is connected to a 210 V battery, find the following. (a) the free charge on the capacitor plates (in nC) nc (b) the electrical field in the dielectric (in MV/m) (Enter the magnitude.) MV/m (c) the induced charge on the dielectric surfaces (in nC) nC

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**Parallel-Plate Capacitor Problem**

For a Teflon™-filled, parallel-plate capacitor, the area of the plate is 52.0 cm² and the spacing between the plates is 0.30 mm. If the capacitor is connected to a 210 V battery, find the following:

(a) The free charge on the capacitor plates (in nC):  
[Input box] nC

(b) The electrical field in the dielectric (in MV/m) (Enter the magnitude):  
[Input box] MV/m

(c) The induced charge on the dielectric surfaces (in nC):  
[Input box] nC

*Note: This problem helps in understanding the behavior of capacitors when filled with a dielectric material, such as Teflon™, and connected to a voltage source.*
Transcribed Image Text:**Parallel-Plate Capacitor Problem** For a Teflon™-filled, parallel-plate capacitor, the area of the plate is 52.0 cm² and the spacing between the plates is 0.30 mm. If the capacitor is connected to a 210 V battery, find the following: (a) The free charge on the capacitor plates (in nC): [Input box] nC (b) The electrical field in the dielectric (in MV/m) (Enter the magnitude): [Input box] MV/m (c) The induced charge on the dielectric surfaces (in nC): [Input box] nC *Note: This problem helps in understanding the behavior of capacitors when filled with a dielectric material, such as Teflon™, and connected to a voltage source.*
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