When a voltage of 250 V is applied across the plates of a parallel plate capacitor 7.5 × 10−7 C of charge accumulates on the plates of that capacitor. 

(a)  What is the capacitance of this capacitor? 

(b) If the distance between the plates is 5 × 10−5 m, what is the surface area of the plates? 

(c) How much energy will the capacitor store at this time? 

(d) What is the strength of the electric between the capacitor plates at this time? 

Now suppose that neoprene is inserted between the plates. Refer to the table on the last page of this exam. 

(e) What is the capacitance of the capacitor now? 

(f) What is the maximum voltage difference that can exist between the plates?

 (g) What is the maximum charge that can be placed on the plates of this capacitor?

(h) What is the maximum energy that this capacitor can store?

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A Dashboard A Descriptive Statistics NY myNU - Niagara Univer x O PHY 122 Electric Potent X E Untitled document - G X M PHY 102 Exam 2 - jmot X b My Questions | bartleb x i docs.google.com/document/d/1-_UolIL-Wt3hHI2QcfxdeStKakA-2WK53KDA-LzOr8U/edit Untitled document A Share J File Edit View Insert Format Tools Add-ons Help Last edit was seconds ago 100% Normal text Arial 10.9 В IU А E E O Editing + 31 | 1 | 2 3 4 | III 5 II|I 6 Dielectrie Dielectric constant strength Material K (V/m) Vacuum 1.0000 3 x 10 10 x 10 Air (1 atm) 1.0006 + Paraffin 2.2 Polystyrene Vinyl (plastic) 2–4 Раper 24 x 10 50 x 10 15 x 10 8x 10 12 x 10 2.6 2. 3.7 Quartz 4.3 Oil Glass, Pyrex 4 5 14 x 10 Rubber, neoprene 6.7 12 x 10 Porcelain 6-8 5 x 10 Mica 7 150 x 10 Water (liquid) 80 Strontium titanate 300 8x 10 > 3:31 PM O Type here to search 日 W 3/26/2021 ... lilı