Given a static electric field for which ∇·E is not zero, what can we immediately deduce...

if tje circulation of a vector field is a given point is zero , can we...

if tje circulation of a vector field is a given point is zero , can we say its curl is zero or its divergence is zero and why?

When static equilibrium is established for a charged conductor, the electric field just inside the surface...

When static equilibrium is established for a charged conductor, the electric field just inside the surface of the conductor is When static equilibrium is established for a charged conductor, the electric field just inside the surface of the conductor is equal to the field outside. opposite to the field outside. zero. equal to the perpendicular component of the field outside. cannot be determined.

In which of the following would the electric field be zero? Please explain why it is...

In which of the following would the electric field be zero? Please explain why it is zero or it isn't a) in a region with no charges b) in a region with a constant magnetic field. c) in an ideal conductor.

Which of the following can be member of interface? Static field members Static properties Static methods...

Which of the following can be member of interface? Static field members Static properties Static methods Static constructors None of the above Every collection class must implement ____________ interface? IEnumerator IEnumerable IList IDictionary Numbers of items which can be added to ArrayList are fixed and decided by its Capacity which cannot bechanged. True False Closely related data can be handled more efficiently in memory when grouped together into a__________ Collection Database File Class

An electron, a neutron(which has zero charge) and a proton are in an electric field generated...

An electron, a neutron(which has zero charge) and a proton are in an electric field generated by charged plates which points in the +x direction. The three particles are sufficiently far apart that their forces on each other are negligible. Assume also that forces other than the electrostatic ones on the three particles are negligible. We know that: (Choose the correct answers) the acceleration of the electron is in the +x direction. the x coordinate of the electron is less...

What is produced by a changing magnetic field? electric field? a. electric field b. gravitational field...

What is produced by a changing magnetic field? electric field? a. electric field b. gravitational field c. magnetic field d. protons e. electrons

1. Which of the following can cause a charged particle to accelerate? A. An Electric field...

1. Which of the following can cause a charged particle to accelerate? A. An Electric field B. A gravitational field C. A neutron field D. (A) and (B) 2. How much electric charge does an electron have compared to a proton? A. None B. The same amount C. The same amount, just the negative kind. D. Only about 1/2000th as much

The electric field is zero at a point along the line joining two charges. (a) Are...

The electric field is zero at a point along the line joining two charges. (a) Are the signs of the two charges equal or opposite? Explain. (b) Can the potential be zero at any point along the line? Explain.

The electric field is zero at a point along the line joining two charges. (a) Are...

The electric field is zero at a point along the line joining two charges. (a) Are the signs of the two charges equal or opposite? Explain. (b) Can the potential be zero at any point along the line? Explain.

Electric Fields and Potentials---- lab A) What does it imply about the electric field when the...

Electric Fields and Potentials---- lab A) What does it imply about the electric field when the electric potential is zero? B) Using the standard convention that V = 0 infinitely far from a charge, in the case of a single positive point charge is it ever possible to find a location where the electric potential is negative? Reason? C) The simulation only shows two spatial dimensions whereas we live in a world with three. What do you think the shapes...