Definitely it depends on frequency because as you increase the frequency you may not have enough time for polarization. Actually dielectric constant drops with frequency. For humidity it also has impact if the material absorbs it because water has high dielectric constant.
What would happen if you make the positive capacitor 20 times smaller than the negative, then seperate them with a k factor material of 1000. Then apply a 100kva 0.1a DV current in a pulsed frequency of let’s say 100hz… have you looked into electrogravitics?
It will depend on the elasticity of the spring, and not just the applied force and this is the example I used to describe why if you apply the same voltage to two different materials with different dielectric constants will have different stored energy.
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Nice video.Thanks Prof
Thank you very much professor!
Thank you
Thank you, professor, for your beneficial information. I have one question, Does polarization depend on frequency, temperature, or humidity?
Definitely it depends on frequency because as you increase the frequency you may not have enough time for polarization. Actually dielectric constant drops with frequency.
For humidity it also has impact if the material absorbs it because water has high dielectric constant.
Thank you so much.
What would happen if you make the positive capacitor 20 times smaller than the negative, then seperate them with a k factor material of 1000. Then apply a 100kva 0.1a DV current in a pulsed frequency of let’s say 100hz… have you looked into electrogravitics?
No I did not look into this topic before
If the same force is applied to the two springs, shouldn't both of them have the same stored energy
It will depend on the elasticity of the spring, and not just the applied force and this is the example I used to describe why if you apply the same voltage to two different materials with different dielectric constants will have different stored energy.