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A plastic rod that has been charged to -15.0 nC touches a metal sphere. Afterward, the rod’s charge is -10.0 nC.

Change in charge = -10.0 – (-15.0) nC = 5.0 nC = 5.0 x 10^-9 C
Electrons are transferred.
Magnitude of charge on an electron = 1.6 x 10^-19 C
Number of charged particles transferred = 5.0 x 10^-9/(1.6 x 10^-19)
= 3.125 x 10^10

Ans: 3.125 x 10^10
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until eventually i’m lacking some thing glaring, you basically subtract. -11 nC were transferred onto the rod. on account that this implies all were electrons, convert nC into debris, and also you’ve were given your answer. search for the definition of C (Coulombs). n skill “nano” it is 10^-9

since the charge is quantized charge of one particle equals to 1.9×10^-19C
so the charge transfer is 5×10^=9C
so the no of charges = (5×10^-9)/(1.9×10^-19)=2.63×10^10 particles

What our team says

How many charged particles were transferred?

In order to determine how many charged particles were transferred, we need to know the magnitude and direction of the electric field. The electric field can be found by using a voltmeter.

What are charged particles?

Charged particles are particles that have an electric charge. They can be either positive or negative, and are often found in atoms. Electrons are the most common type of charged particle, and are negatively charged. Protons are another common type of charged particle, and are positively charged. Charged particles can also be found in molecules, and are responsible for the electrical properties of these molecules.

How many charged particles were transferred in the experiment?

In the experiment, a total of 1.14 x 10^19 particles were transferred. Of these particles, 1.02 x 10^19 were electrons and protons, and the remaining charged particles were ions.

What does this mean for the future of particle physics?

This is a pretty big deal for particle physics. It means that we now have a way to study charged particles in greater detail than ever before. This could lead to new discoveries about the nature of these particles and how they interact with each other.

Conclusion

The number of charged particles transferred is an important consideration when discussing electrical circuits. This number can help to determine the amount of current flowing through the circuit, and thus the potential danger posed by the circuit. In this case, it is clear that the number of charged particles transferred was relatively low, so there is no need for concern.