Which statement regarding electric potential is NOT accurate? a. Electric potential is measured in units of...

This is from an lab dealing with electric feild and equipotential lines. 1.If the electric potential...

This is from an lab dealing with electric feild and equipotential lines. 1.If the electric potential between two points is zero, what does that mean in terms of the electric field in terms of the test charge? 2. Is the electric field a vector a scalar field? Explain 3. Why must equipotential lines be perpendicular to electric field lines? 4. How much work is required to move a small test charge along an equipotential line? 5. Find the electric field...

a. Determine the work in joules required to move a charge of 20 Coulombs through a...

a. Determine the work in joules required to move a charge of 20 Coulombs through a potential of 24 volts? b. Find the electric field in N/C, if a force of 4 N is required to move a charge of 20 Coulombs? c. Which of the following statements are true or false? Electric field lines are everywhere perpendicular to the equipotential lines An equipotential line is the locus of a set of points all of which have the same potential...

The electric potential due to a point charge is given by V = k q /...

The electric potential due to a point charge is given by V = k q / r where q is the charge, r is the distance from q, and k =8.99×109Nm2⁄C2. A) Show, in detail, that the SI unit of electric potential is a volt. B) What are equipotential lines? C) How are equipotential lines used to obtain the electric field lines?

A proton enters a region in which there are both electric and magnetic fields. The fields...

A proton enters a region in which there are both electric and magnetic fields. The fields are both uniform and their directions are mutually perpendicular. The velocity of the proton does not change as it moves through this region. Which of the following is a possible explanation for this observation? Question 2 options: a) The proton's velocity is perpendicular to both the electric and magnetic fields and has a magnitude equal to B/E. b) The proton's velocity is parallel to...

Which of the following statements is/are true regarding behaviors of charged particles inside electric field? Positive...

Which of the following statements is/are true regarding behaviors of charged particles inside electric field? Positive charges are accelerated by electric fields toward points at higher electric potential; If the electric field at a certain region is zero, then the electric potential at the same region is constant; If a negative charge moves in the direction of the electric field, the field does positive work and the potential energy increases If a positive charge moves opposite to the electric field,...

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m....

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m. What is the strength of the field at a distance of 6.0 m? 24. An alpha (α) particle is positioned in an electric field such that the gravitational force acting on it is equal to the electrostatic force.              (qα = 3.2 x 10–19 C and mα = 6.64 x 10–27 kg) a) What is the direction of the electric field at this point?...

In a constant uniform electric field, a particle with charge −100 ?? is moved from the...

In a constant uniform electric field, a particle with charge −100 ?? is moved from the origin a distance ? = 0.80 ? straight in the direction of the electric field lines. The field has a strength of 5.0 ? ? . a) What is the voltage difference between the initial and final position? b) How much work is done to move the charge? c) Does the charge gain or lose electrical potential energy in the process of this move?...

Which of the following is a correct statement? (1 point) The direction of the electric field...

Which of the following is a correct statement? (1 point) The direction of the electric field due to a negative point charge is directed away from the charge. The direction of the electric force on a positive charge is opposite to the direction of the electric field at its location. The magnitude of the electric field due to a point charge is inversely proportional to the square of the distance between the charge and the point. The unit of measurement...

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...

Did any of your field lines cross? Should they? Why, or why not? None of the...

Did any of your field lines cross? Should they? Why, or why not? None of the field lines crossed, nor should they. They are a line of constant potential and the equipotential can have only one value at a given point in space. If the electric field lines were to intersect, they would render a location with two different strong electric field vectors and so would not accurately represent equipotential lines. Did any of your equipotential surfaces cross? Should they?...