please answer each section!! extremely important LABORATORY 9 MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE Objectives...
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...
PHYSICS LAB MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE-8 You can find datas from here the Link provided: https://www.youtube.com/channel/UCKZ_Kb4C9j-B3RSNBMv2s_w Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Investigation 2: Relationship between force and length of a current-carrying wire In this section we will explore the relationship between the force on a current-carrying wire and the length of the wire. Investigation 2.1 Predict the dependence of the force on the length of the wire. If you were to plot...
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...
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...
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....
(Magnetic Force on a Wire) A horizontal, current-carrying wire of mass m = 40.0 g is free to slide without friction along two vertical conducting rails spaced l = 80.0 cm apart as in Figure. A uniform magnetic field of B = 1.20 T is directed into the plane of the drawing. What magnitude and direction (to the right or to the left) must the current have if the force exerted by the magnetic field on the wire is just...
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...
Accessory Unit Arm Magnet Assembly Main Unit 121 のの のの Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Investigation 3: Relationship between force and angle between the current through a current-carrying wire and the magnetic field In this section we will explore the relationship between the force on a current-carrying wire and the angle between the current and the magnetic field. a. Predict the dependence of the force on the angle between the current and the magnetic field....
a) Two long straight wires are carrying current out of the page and into the page as shown Draw the direction of the force exerted on wire 2. X 1 b) A rectangular loop of wire with current flowing through it is sitting in an external magnetic field as shown below (the magnetic field in the dashed region is caused by magnets that are not shown in the diagram). What direction will the loop rotate? Answer by saying which side...
The size of the magnetic force on a straight wire of length L carrying current I in a uniform magnetic field with strength B is F=ILBsin(?). Here ? is the angle between the direction of the current (along the wire) and the direction of the magnetic field. Hence Bsin(?) refers to the component of the magnetic field that is perpendicular to the wire, B?. Thus this equation can also be written as F=ILB?. The direction of the magnetic force on...