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Fores-arrying wire in seleratiefel We will win tapi bene in en wich you can by connecting...
power source, establish a current in the swing. We are interested only in the lower section...
power source, establish a current in the swing. We are interested only in the lower section (seat) of the swing here. You will need to make sure you understand the interactions so that you can determine the direction of the current through the swing's "seat". There is a very strong magnet with the North pole on top and the South pole underneath the current carrying wire. Your charge here is to observe the effect on the swing, i.e. the direction...
For this station, you have two coils of wire (each with different numbers of loops), a...
For this station, you have two coils of wire (each with different numbers of loops), a magnet, some connecting wires, and a galvanometer. A galvanometer is an ammeter that measures very small currents (micro-amperes) and indicates the direction of that current. Understanding how the meter behaves is important here, because you’re going to use the meter to determine/measure current—including its direction. For this galvanometer, when (conventional) current enters the terminal on the right (as viewed when reading the dial), the...
please answer each section!! extremely important LABORATORY 9 MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE Objectives...
please answer each section!! extremely important
LABORATORY 9 MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE Objectives to be able to determine the magnitude and direction of the force on a current- carrying wire in a magnetic field to be able to apply Newton's Laws in magnetostatics to be able to experimentally determine the relationship between the force on a current-carrying wire in a magnetic field and the current through the wire to be able to experimentally determine the relationship between...
C. Mugerte del Sol Colah current allas part of the we will mathematic field at the...
C. Mugerte del Sol Colah current allas part of the we will mathematic field at the center of all sa funci de curs in the web Acument in acel procesamie perpendiculare the place of the conditiven by the right handler workstation in a power apply puble for the clothed up to maximum val of 15 w forming the one is included in chup We powin the magnifice the center of the old See figures New Poliermareste celle de right and...
A wire is sitting flat on a page, with a constant current moving north (top of...
A wire is sitting flat on a page, with a constant current moving north (top of the page.) The wire is between the poles of a magnet, with the north pole to the right of the wire, and the south pole to the left. What is the direction of the magnetic force on the current carrying wire A. Into the page . B. Toward the top of the page. C. Toward the bottom of the page. D. out of the...
A wire through which a current is flowing lies along the x-ais as shown. Connecting wires...
A wire through which a current is flowing lies along the x-ais
as shown. Connecting wires which are not shown the diagram connect
the ends of the wire to batteries (which are also not shown).
Electron current flows through the wire in the -x direction, as
indicated in the diagram. To calculate the magnetic field at
location A due to the current in the wire, we divide the wire into
pieces, approximate each piece as a point charge moving in...
Each experiment requires us to measure the force on the wire, however we do not have...
Each experiment requires us to measure the force on the wire,
however we do not have a direct way to do so. Using our knowledge
of Newton’s Laws, we can infer the magnitude of the force. Question
4. Assuming the current and magnetic field are as shown in Fig. 2,
use the right-hand rule to determine the direction of the predicted
force of the magnet on the wire.
[INEED HELP WITH NUMBER 5. I ALREADY DID NUMBER 4]
Question 5....
In Explorations 1 and 2, we have been focusing on the direction of the force on...
In Explorations 1 and 2, we have been focusing on the direction of the force on a current- carrying wire. It is obtained by using a right hand rule. Make sure you understand the right hand rule and how to use it to determine the direction of the force on a current- carrying wire when the direction of the magnetic field and the current are known. The magnitude of the force on a current-carrying wire is given by F =...
Magnetic induction lab: 5 questions A vertical bar magnet is dropped through the center of a...
Magnetic induction lab: 5 questions
A vertical bar magnet is dropped through the center of a horizontal loop of wire, with its south pole leading. At the moment just before the south pole passes through the loop, what is the direction of the induced current in the loop (viewed from above)? 2. Explain your answer to the previous question. 3. A vertical bar magnet is dropped through the center of a horizontal loop of wire, with its south pole leading....
a. This is a prediction. Do not carry it out yet. Suppose you were to close...
a. This is a prediction. Do not carry it out yet. Suppose you were to close the switch and bring the north pole of a cow magnet up under the wire, as in the diagram below (while the switch is closed). Z (1) What is the approximate direction of the net magnetic field of the magnet near the wire? Explain your reasoning. if possible Ho a catter (ii) Which direction, if any, would the wire move? Record your prediction for...
power source, establish a current in the swing. We are interested only in the lower section (seat) of the swing here. You will need to make sure you understand the interactions so that you can determine the direction of the current through the swing's "seat". There is a very strong magnet with the North pole on top and the South pole underneath the current carrying wire. Your charge here is to observe the effect on the swing, i.e. the direction...
please answer each section!! extremely important
LABORATORY 9 MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE Objectives to be able to determine the magnitude and direction of the force on a current- carrying wire in a magnetic field to be able to apply Newton's Laws in magnetostatics to be able to experimentally determine the relationship between the force on a current-carrying wire in a magnetic field and the current through the wire to be able to experimentally determine the relationship between...
C. Mugerte del Sol Colah current allas part of the we will mathematic field at the center of all sa funci de curs in the web Acument in acel procesamie perpendiculare the place of the conditiven by the right handler workstation in a power apply puble for the clothed up to maximum val of 15 w forming the one is included in chup We powin the magnifice the center of the old See figures New Poliermareste celle de right and...
A wire through which a current is flowing lies along the x-ais
as shown. Connecting wires which are not shown the diagram connect
the ends of the wire to batteries (which are also not shown).
Electron current flows through the wire in the -x direction, as
indicated in the diagram. To calculate the magnetic field at
location A due to the current in the wire, we divide the wire into
pieces, approximate each piece as a point charge moving in...
Each experiment requires us to measure the force on the wire,
however we do not have a direct way to do so. Using our knowledge
of Newton’s Laws, we can infer the magnitude of the force. Question
4. Assuming the current and magnetic field are as shown in Fig. 2,
use the right-hand rule to determine the direction of the predicted
force of the magnet on the wire.
[INEED HELP WITH NUMBER 5. I ALREADY DID NUMBER 4]
Question 5....
In Explorations 1 and 2, we have been focusing on the direction of the force on a current- carrying wire. It is obtained by using a right hand rule. Make sure you understand the right hand rule and how to use it to determine the direction of the force on a current- carrying wire when the direction of the magnetic field and the current are known. The magnitude of the force on a current-carrying wire is given by F =...
Magnetic induction lab: 5 questions
A vertical bar magnet is dropped through the center of a horizontal loop of wire, with its south pole leading. At the moment just before the south pole passes through the loop, what is the direction of the induced current in the loop (viewed from above)? 2. Explain your answer to the previous question. 3. A vertical bar magnet is dropped through the center of a horizontal loop of wire, with its south pole leading....
a. This is a prediction. Do not carry it out yet. Suppose you were to close the switch and bring the north pole of a cow magnet up under the wire, as in the diagram below (while the switch is closed). Z (1) What is the approximate direction of the net magnetic field of the magnet near the wire? Explain your reasoning. if possible Ho a catter (ii) Which direction, if any, would the wire move? Record your prediction for...
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