The charge on the plates of a parallel plates capacitor is kept constant while the separation of the plates is doubled. What happens to the electric field between the plates?
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hello, please explain.
The charge on the plates of a parallel plates capacitor is kept constant while the separation of the plates is doubled.
What happens to the electric field between the plates?
- i thought electric field would be haved but my answer is wrong. please explain why
thank you :)
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- A capacitor stores a separation of charge. To separate the charges on a capacitor, you have to move charges against where the E field wants to push them (the oppositely charges on the two plates are attracted and want to move together), so charging takes work. That work becomes stored energy -- just like carrying water up a hill so that you can let it roll down at a later time and turn a generator. The total amount of energy stored in a capacitor is ½|Q||ΔV|. We'll use this to determine the amount of energy stored in a cell membrane.In discussion, we found that a cell membrane maintains a potential difference of about 70 mV (0.07 V) between the inside and outside of the membrane. We also found that a 1 μm by 1 μm section of the membrane has a capacitance of about 1.75 10-15 F.1. What is the magnitude of charge on one side of the 1 μm by 1 μm section of the membrane?____ C2. What is the energy stored in the 1 μm by 1 μm section of the membrane?____ J3. For a cell with a radius of 10…A negative charge Q equals -10 muC moves to the right in a uniform electric field if you electron gains 80 muJ of electric potential energy after moving 15 cm give the magnitude and direction of the electric fieldIn this problem we explore dipoles as sources of fields and their interactions with other charges An induced dipole is a dipole (separated, opposite charges) whose charge separation and dipole moment are caused by the presence of an external electric field, often due to some other source charge. Often, the induced dipole moment is proportional to that electric field at the location of the dipole. For example, when a charged piece of tape is near your finger, the charges inside the neutral atoms in your finger move in response to the tape's field at the location of the finger, and each atom in the finger becomes a dipole. The closer the tape is to the finger, the stronger the tape's field, the more the charges move and the larger the dipole moments of the atoms in the finger. Mathematically, we can write this as p = aE, where p is the dipole moment, E is the strength of the electric field at the location of the dipole, and a is a constant that depends on the type of atom and gives the…
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