Now place one magnet on the marked space below and identify north and south poles of...
5) Hold a magnaprobe above the magnet and follow the lines of magnetism around from one pole to another. Observe the compass dial as you move along the line of magnetism. What is the shape of the magnetic field above the magnet? 6) Place the north end of a bar magnet distanced from the south end of another bar magnet. (as shown below) Place a piece of plastic over the two magnets and sprinkle iron filings in the region between...
1. The stack of magnets works as one big bar magnet. Do the poles change when you divide the magnet into pieces? 2. In step 3 of the experiment, do both sides of the magnet attract the metal surface? Explain how a single magnet can repel the rest of the stack, but still stick to the other surface. 3. How does the magnet attract something that is originally non?magnetic? 1. Describe the direction of the compass needle as you moved...
Can a magnet have more than two magnetic poles, one north and one south? Select the correct answer and explanation. Can a magnet have more than two magnetic poles, one north and one south? Select the correct answer and explanation.Yes. A magnet can have several north poles, but it can have only one south pole. No. A magnet can only have exactly one north pole and exactly one south pole. Yes. A magnet can have several north and several south...
III. Mapping the Field Around a Bar Magnet: An Observation Experiment Purposes: Design an experiment to take appropriate data to find a relationship. Construct a mathematical model to describe that relationship Description: Your task is to use a compass to map the magnetic field of a small magnet. Construct a circle of radius 10 cm on a clean sheet of paper, and mark points on the circle every 30°. Place the bar magnet so that its center is resting at...
You have one magnet with the north and south poles labeled. How can you use this magnet to identify the north and south poles of other magnets?
write in youtube (properties of magnet physics experiment) and watch the video 10:06 1) Describe the field. What is the most unique characteristic of the field? 2) Draw a simplified version of the field pattern that emerged when the iron filings were placed on the bar magnet. Be sure to show the shape of the field. Place your compasses in your magnetic field in the spots illustrated below. Does your compass needle line up with the flux lines? Draw an...
elaborate on this quote. Does this mean that if I place a compass above the wire, the NORTH end of the compass will point towards the wire? like this? If so, can we imagine the wire as being the virtual magnet, where the "top" of the wire simulates a north pole and the "bottom" of the wire simulates a south pole? Why would this be? Is it because the field lines go from the north end of the magnet to...
Which of the following about the earth's magnetic properties is true? a. The north pole of the earth's fictitious magnet lies beneath the north geographic pole. b. The earth's magnetic field lines end at the south geographic pole. c. The earth's magnetic field lines originate from the north geographic pole. d. The compass needle points to the earth's north geographic pole. e. The earth's magnetic field lines point to the geographic south.
answer all Q pls 8. A bar magnet is dropped through a loop of copper wire as shown. Recall that ou magnet, magnetic field lines point away from a north pole and toward a south p positive direction of the induced current I in the loop is as shown by the arrows on the loop, the variation of I with time as the bar magnet falls through th by which of the following graphs (the time when the midpoint of...
A positively charged particle is moving upward in the space between the North Pole of one magnet and the south of another magnet. Draw a diagram showing the magnets, field lines, particle velocity vector and force vector. Also, state the direction of the force, since your diagram may be unclear.