What is the term we use for a fish that is drawn to an electric field...

The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its...

The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its body using an organ in its tail. When small prey (or even potential mates) swim within a few feet of the fish, they perturb the electric field. The change in the field is picked up by electric sensor cells in the skin of the elephant nose. These remarkable fish can detect changes in the electric field as small as 3.00 μN/C. How much charge...

The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its...

The 9-inch-long elephant nose fish in the Congo River generates a weak electric field around its body using an organ in its tail. When small prey, or even potential mates, swim within a few feet of the fish, they perturb the electric field. The change in the field is picked up by electric sensor cells in the skin of the elephant nose. These remarkable fish can detect changes in the electric field as small as 3.00 μN/C. How much charge,...

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

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

Given a static electric field for which ∇·E is not zero, what can we immediately deduce about the source of this field?

Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby...

Certain fish, such as the Nile fish (Gnathonemus), concentrate charges in their head and tail, thereby producing an electric field in the water around them. This field creates a potential difference of a few volts between the head and tail, which in turn causes current to flow in the conducting seawater. As the fish swims, it passes near objects that have resistivities different from that of seawater, which in turn causes the current to vary. Cells in the skin of...

What is the proportionality statement for electric field strength and electric potential? And what equation was...

What is the proportionality statement for electric field strength and electric potential? And what equation was it taken from? Cause my graph is exponential when I graphed electric field strength vs electric potential, but when looking at E= V/d , shouldn’t it be linear?

25. Around any electron in motion we have a. electric field. b. magnetic field. c. both...

25. Around any electron in motion we have a. electric field. b. magnetic field. c. both fields.    26. The lines of magnetic field generated by a current passing: a) are in the direction of the current b) are opposite to the direction of the current c) leave the cable radially OR are concentric circles around the cable 27. A field____can act on a moving electric charge. a. electric b. magnetic. c. both of them. 28. A magnetic field does...

7. Certain fish, such as the Elephant Fish (Mormyridae), concentrate charges in their head and tail,...

7. Certain fish, such as the Elephant Fish (Mormyridae), concentrate charges in their head and tail, thereby pro- ducing an electric field in the water around them. This field creates a potential difference of a few volts between the head and tail, which in turn causes current to flow in the conducting seawater. As the fish swims, it passes near objects that have a resistivity different from that of sea- water, which in turn causes the current to vary. Cells...

A 13 µC charge is located in a 288 N/C electric field. What is the force...

A 13 µC charge is located in a 288 N/C electric field. What is the force the charge experiences? (Hint: 1 µC = 10−6C ). Calculate to 4 decimals.

Physics Lab: Electric Potential and Field Plotting 1. What is an electric field? 2. What is...

Physics Lab: Electric Potential and Field Plotting 1. What is an electric field? 2. What is the significance of electric field lines being close together in some areas and far apart in others? 3. Explain why electric fields must be at right angles to equipotential lines. I know this is three questions in one, any help is appreciated.