We use the fleming right hand rule to know the direction of the
force.
In fleming right hand rule the middle finger represent the current
and the first finger represent the direction of the magnetic field
and the thumb indicate the direction of force or motion
So when we stretch these three fingers at right angle to each other
and in the direction of the current and magnetic field then the
thumb will indicate the direction of force.
So in the first figure the direction of force will be in upward
direction as shown in the fig.
Similarly in second case the direction will be in downward
direction.
2. A current carrying wire is put inside a magnetic field of a permanent field of...
6) For the following diagrams: A) Draw the magnetic field for a wire carrying current. B) Draw the magnetic field inside the solenoid below. C) Draw the direction of the force acting on an electron moving in a uniform magnetic field. D) Draw the direction of the force acting on wire carrying current in a uniform magnetic field. OB o olio o
Within a uniform magnetic field B, a straight wire is carrying current in the direction shown in this figure. The direction of this uniform magnetic field is denoted by the blue dots. (Think about what these dots means. This was taught in my lectures.) B. What is the direction of the magnetic force acting on this current-carrying wire? The magnetic force points: A to the right: B. out of the page; C. Into the page: D. to the left; O...
Lab Homework - Force on a Current-Carrying Wire This homework will be due when you come to lab the week of November 4. A horseshoe magnet, with its north and south poles indicated, is shown in the figure below. Between the poles of the magnet is a wire perpendicular to the page, with current out of the page. a) Draw magnetic field lines for the magnet. Explain why you drew the field lines the way you did. b) If there...
The diagram below shows a straight wire carrying a conventional
current into the page. The wire is between the poles of a permanent
magnet. The direction of the magnetic force exerted on the wire is:
A. upward. B. to the left. C. downward D. into the page. E. to the
right.
Answer key says C. downward; please explain. Thanks!
7. The diagram below shows a straight wire carrying a conventional current into the page. The wire is between the poles...
Michal Smith R11340334 PHYSICS 1404 Lab Homework-Force on a Current-Carrying Wire This homework will be due when you come to lab the week of November 4. A horseshoe magnet, with its north and south poles indicated, is shown in the figure below. Between the poles of the magnet is a wire perpendicular to the page, with current out of the page. a) Draw magnetic field lines for the magner. Explain why you drew the field lines the way you did....
13. In each of the following situations current-carrying wire is placed in a magnetic field as shown. Determine the direction of the requested quantity. (a) (1 pt) In diagram (a), the wire has a current flowing to the left and the magnetic field is represented by the circles. What is the direction of the force on the wire due to the magnetic field? No direction Value is Zero (b) (1 pt) In diagram (b), the wire has a current flowing...
Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Exploration 2: Direction of force on a current-carrying wire II Exploration 2.1 At your table, is the main unit you will be using today, mounted on lab stand. It is shown in the picture below. Place one of the current loops into the end of the main unit, with the foil extending down into the magnet assembly and position the lab stand with the Current Loop down between the poles...
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...
The semicircular wire segment with radius a is carrying current I, and is placed in the x - y plane as shown. The wire is inside a uniform magnetic field B = Boi. Find the magnitude and the direction of the to- tal magnetic force acting on the wire segment. +x (HINT: Consider an infinitesimal arc segment ds on the wire to start with.)
4.A long, straight wire carrying a current moving upward is placed in a magnetic field produced by magnets, what is the direction of the magnetic force acting on the wire? 2 % (A) right, (B) left, (C) upward, (D) downward, (E) into the page, (F) out of the page, (G) Clockwise (H) Counter-clockwise.