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Chapter 19: Q17CQ (page 694)

How does the polar character of water molecules help to explain water's relatively large dielectric constant? (Figure 19.19)

Short Answer

Expert verified

Water molecules act like dipoles. Thus have large dielectric constant.

Step by step solution

01

Defining Dielectric constant  

The capacity of an insulating material to hold energy in the form of an electric field, produced due to the formation of dipoles when the material is placed between two metallic plates of the capacitor is given by the dielectric constant.

02

Step 2: The polar character of water molecules explains water's relatively large dielectric constant?

Because the hydrogen atoms are not aligned with the oxygen atom in the water molecule. This generates a charge separation in the molecule, with the hydrogen atoms having a net positive charge and the oxygen atom having a net negative charge, causing water molecules to behave like electric dipoles with a large dipole moment.

The average of all dipole moments determines a material's polarization, which is related to the dielectric constant, hence a big dipole moment of a molecule corresponds to a large dielectric constant.

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Most popular questions from this chapter

Give the reason why a dielectric material increases capacitance compared with what it would be with air between the plates of a capacitor. What is the independent reason that a dielectric material also allows a greater voltage to be applied to a capacitor? (The dielectric thus increases \(C\) and permits a greater \(V\).

A165μ¹ócapacitor is used in conjunction with a motor. How much energy is stored in it when 119 Vis applied?

(a) An 8.00μ¹ócapacitor is connected in parallel to another capacitor, producing a total capacitance of 5.00μ¹ó. What is the capacitance of the second capacitor? (b) What is unreasonable about this result? (c) Which assumptions are unreasonable or inconsistent?

What are the sign and magnitude of a point charge that produces a potential of \(-2.00{\rm{ }}V\) at a distance of \(1.00{\rm{ mm}}\)?

(a) Will the electric field strength between two parallel conducting plates exceed the breakdown strength for air\(\left( {3.0 \times {{10}^6}\;V/m} \right)\)/ if the plates are separated by\(2.00\;mm\)and a potential difference of\(5.0 \times {10^3}\;V\)is applied?

(b) How close together can the plates be with this applied voltage?
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