1. What is the average Magnetic Flux through one single coil at the initial position of the bar magnet using initial = 2.32 x 10-3 T and = 2.292 x 10-4 m2.
2. What is the total average Magnetic Flux through all 1600 turns in the coil at the initial position of the bar magnet?
3. What is the average Magnetic Flux through one single coil and what is the total average Magnetic Flux through all 1600 turns in the coil at the final position of the bar magnet?
1. What is the average Magnetic Flux through one single coil at the initial position of...
1. What is the average Magnetic Flux through one single coil at the initial position of the bar magnet using initial = 2.32 x 10-3 T and = 2.292 x 10-4 m2. 2. What is the total average Magnetic Flux through all 1600 turns in the coil at the initial position of the bar magnet? This is the value for initial. 3a. What is the average Magnetic Flux through one single coil? b. What is the total average Magnetic Flux...
A coil with 3300 turns and radius 5 cm is connected to an oscilloscope (see figure below). You move a bar magnet toward the coil along the coil's axis, moving from 39 cm away to 27 cm away in 0.2 s. The bar magnet has a magnetic moment of 0.8 A·m2. (a) What is the approximate magnitude of the signal observed on the oscilloscope? (Calculate the average emf.) mV (b) What approximations or simplifying assumptions did you make? (Select all...
Also, if you happen to have any idea of what book this came out of (or one that has very similar problems) I would GREATLY appreciate that info. Thanks!! Problem 6. In the figure 1 the coil wound on the ferromagnetic bar moves with speed v with respect to permanent magnet pole N that gives the magnetic flux density B. The coil of N numbers of turns is closed through the load impedance Zi. a) Mark the direction of: We...
The magnetic flux can be estimated to be ΦB(t) = NB(t)A. The coil is connected to two light bulbs in a series with a voltage of 6.6v N=200 turns A= 0.0314 The magnetic field is uniform over the area Bo is the maximum value of the magnetic field 2π f=is more compactly written as the angular frequency 1) Use the expression and the are (expressed in terms of the diameter) to write out an expression for the (time-dependent) magnetic flux:...
Assuming you were able to see the flux distribution in the magnetic system depicted below, what could you tell me about the unknown material? 1. unknown material 2. The cast steel torroid shown below has a rectangular cross-section. If the flux in the core is known to be 7.75mWb and the coil has 200 turns, determine the current in the coil. 100mm 400mm We were unable to transcribe this imageWe were unable to transcribe this image Assuming you were able...
What is the magnitude of the magnetic flux (Pinitial) through the coil before it is rotated? Express your answer numerically, in webers, to at least three significant figures. Constants View Available Hint(s) In a physics laboratory experiment, a coil with 220 turns enclosing an area of 12.2 cm2 is rotated during the time interval 3.70x10-2s from a position in which its plane is perpendicular to Earth's magnetic field to one in which its plane is parallel to the field. The...
2 parts, thx:) 1) Current of 4.0 A flows in the coil as shown in the figure. The coil has 4 loops and is situated in the xz-plane. The area of the coil is 3.00 x 10-3 m2. The coil is situated in a uniform magnetic field = (2.00- 5.00- 5.00mT. What is the magnitude of the torque acting on the loop due to the magnetic field? Give your answer in µNm (micro-Newton meters). 2) Current of 2.0 A flows...
Problem 22.17 (Multistep) A coil of wire is connected to a power supply, and a current runs in the coil. A single loop of wire is located near the coil, with its axis on the same line as the axis of the coil. The radius of the loop is 3 cm. At time t1 the magnetic field at the center of the loop, due to the coil, is 0.6 T, in the direction shown in the diagram; the current in...
You throw a bar magnet downward with its south end pointing down (see figure below). The bar magnet has a magnetic dipole moment of 1.6 A·m2. Lying on the table is a nearly flat circular coil of N= 1175 turns of wire, with radius R= 6 cm. The coil is connected to an oscilloscope, which has a very large resistance. At the instant when the magnet is h= 30 cm above the table, the oscilloscope indicates a voltage of magnitude...
A ten-loop coil having an area of 0.23 m2 and a very large resistance is in a 0.047-T uniform magnetic field oriented so that the maximum flux goes through the coil. The coil is then rotated so that the flux through it goes to zero in 0.34 s. What is the magnitude of the average emf induced in the coil during the 0.34 s?