Question

How do your results for the enclosed charge and the electric-field magnitude behave in the limit r ? 0? In the limit r ? ?? Explain your results. Check all that apply. View Available Hint(s) The enclosed charge will be equal to the proton's charge in the limit r ? 0 and zero in the limit r ? ?. The electric field will be zero in the limit r ? 0 and in the limit r ? ?. The electrical field has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no field yet: as for infinity, the field does not reach it. The electric field will be equal to the proton's electric field in the limit r ? 0 and to zero in the limit r ? ?. The enclosed charge has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no charge: as for infinity, the summary charge of the electron and the proton is zero. The enclosed charge is equal to the proton's at zero distance and to zero in the infinity because the sphere with zero radius (the central point) is the proton: as for infinity, the summary charge of the electron and the proton is zero. The enclosed charge will be zero in the limit r ? 0 and in the limit r ? ?. The electric field is equal to the proton's electric field at zero distance and to zero in the infinity because the sphere with zero radius (the central point) contains only the proton with its own field: as for infinity, the field does not reach it.

          How do your results for the enclosed charge and the electric-field magnitude behave in the limit r ? 0? In the limit r ? ?? Explain your results.

Check all that apply.

View Available Hint(s)

The enclosed charge will be equal to the proton's charge in the limit r ? 0 and zero in the limit r ? ?.
The electric field will be zero in the limit r ? 0 and in the limit r ? ?.
The electrical field has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no field yet: as for infinity, the field does not reach it.
The electric field will be equal to the proton's electric field in the limit r ? 0 and to zero in the limit r ? ?.
The enclosed charge has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no charge: as for infinity, the summary charge of the electron and the proton is zero.
The enclosed charge is equal to the proton's at zero distance and to zero in the infinity because the sphere with zero radius (the central point) is the proton: as for infinity, the summary charge of the electron and the proton is zero.
The enclosed charge will be zero in the limit r ? 0 and in the limit r ? ?.
The electric field is equal to the proton's electric field at zero distance and to zero in the infinity because the sphere with zero radius (the central point) contains only the proton with its own field: as for infinity, the field does not reach it.

How do your results for the enclosed charge and the electric-field magnitude behave in the limit r ? 0? In the limit r ? ?? Explain your results.

Check all that apply.

View Available Hint(s)

The enclosed charge will be equal to the proton's charge in the limit r ? 0 and zero in the limit r ? ?.
The electric field will be zero in the limit r ? 0 and in the limit r ? ?.
The electrical field has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no field yet: as for infinity, the field does not reach it.
The electric field will be equal to the proton's electric field in the limit r ? 0 and to zero in the limit r ? ?.
The enclosed charge has two zeros at zero distance and in the infinity because the sphere with zero radius (the central point) has no charge: as for infinity, the summary charge of the electron and the proton is zero.
The enclosed charge is equal to the proton's at zero distance and to zero in the infinity because the sphere with zero radius (the central point) is the proton: as for infinity, the summary charge of the electron and the proton is zero.
The enclosed charge will be zero in the limit r ? 0 and in the limit r ? ?.
The electric field is equal to the proton's electric field at zero distance and to zero in the infinity because the sphere with zero radius (the central point) contains only the proton with its own field: as for infinity, the field does not reach it.

Added by Michelle C.

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