Respuesta :
Answer:
Part A the answer is the dielectric constant.
Part B Mica- mylar- paper- quartz
Explanation:
The capacity of a capacitor is given by
C = ε ε₀ A / d
Where the dielectric constant (ε) is the value of the material between the plates of the capacitor, we see that as if value increases the capacity also increases.
Another magnitude that we must take into account that the maximum working voltage, the greater the safer is the capacitor
the flexibility of the material must also be taken into account
Part A the answer is the dielectric constant.
Pate B order the materials from best to worst
Mica. The best ever
Mylar Flexible
Paper Low capacity, low working voltage, flexible
Quartz high dielectric, but brittle
Part A: Dielectric constant and breakdown voltage of the material must be considered for choosing the best dielectric.
Part B: Mica is the most appropriate material and paper is the least appropriate.
Parallel Plate Capacitor
Part A:
The charge stored in a capacitor is given by;
[tex]Q=CV[/tex]
The capacitance of a parallel plate capacitor with a dielectric in the middle is given by;
[tex]C = \kappa\frac{\epsilon_0 A}{d}[/tex]
Where, [tex]\kappa[/tex] is the dielectric constant of the material.
- If the value of the dielectric constant increases, the capacitance also increases.
- Also, as the voltage increases the amount of charge stored will also increase.
- So, the breakdown voltage that the material can tolerate has to be large in case of a good dielectric.
Part B:
Mica is the most appropriate material.
Quartz is the second-best choice.
Mylar is the next best choice.
Paper is the least appropriate material.
Learn more about parallel plate capacitors here:
https://brainly.com/question/22989451
