Learning Goal: To understand the magnetic force on a straight current- carrying wire in a uniform magnetic field. What is the direction of the magnetic force acting on the wire in Part B due to the applied magnetic field? Magnetic fields exert forces on moving charged particles, whether those charges are moving independently or are confined to a current-carrying wire. The magnetic force F on an individual moving charged particle depends on its velocity v and charge q. In the case of a current-carrying wire, many charged particles are simultaneously in motion, so the magnetic force denends on the total current I and the lenath of O due north O due south due east due west Figure < 1 of 2 O straight up O straight down Up Part D W + E Now let us assume that we are able to reorientate the wire in (Figure 1) and therefore the direction of current flow. Down Which of the following situations would result in a magnetic force on the wire that points due north? Check all that apply. O O O O O O
Learning Goal: To understand the magnetic force on a straight current- carrying wire in a uniform magnetic field. What is the direction of the magnetic force acting on the wire in Part B due to the applied magnetic field? Magnetic fields exert forces on moving charged particles, whether those charges are moving independently or are confined to a current-carrying wire. The magnetic force F on an individual moving charged particle depends on its velocity v and charge q. In the case of a current-carrying wire, many charged particles are simultaneously in motion, so the magnetic force denends on the total current I and the lenath of O due north O due south due east due west Figure < 1 of 2 O straight up O straight down Up Part D W + E Now let us assume that we are able to reorientate the wire in (Figure 1) and therefore the direction of current flow. Down Which of the following situations would result in a magnetic force on the wire that points due north? Check all that apply. O O O O O O
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Transcribed Image Text:Learning Goal:
To understand the magnetic force on a straight current-
carrying wire in a uniform magnetic field.
What is the direction of the magnetic force acting on the wire in Part B due to the applied magnetic field?
Magnetic fields exert forces on moving charged
particles, whether those charges are moving
independently or are confined to a current-carrying
due north
wire. The magnetic force F on an individual moving
charged particle depends on its velocity v and charge
q. In the case of a current-carrying wire, many charged
particles are simultaneously in motion, so the magnetic
force denends on the total current I and the lenath of
due south
due east
O due west
Figure
< 1 of 2
<>
O straight up
O straight down
Up
Part D
W +
Now let us assume that we are able to reorientate the wire in (Figure 1) and therefore the direction of
current flow.
S
Down
Which of the following situations would result in a magnetic force on the wire that points due north?
Check all that apply.
Transcribed Image Text:Part D
Now let us assume that we are able to reorientate the wire in (Figure 1) and therefore the direction of
current flow.
Which of the following situations would result in a magnetic force on the wire that points due north?
Check all that apply.
O Current in the wire flows straight down; the magnetic field points due west.
Current in the wire flows straight up; the magnetic field points due east.
Current in the wire flows due east; the magnetic field points straight down.
Current in the wire flows due west and slightly up; the magnetic field points due east.
O Current in the wire flows due west and slightly down; the magnetic field points straight down.
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