Questions ! I Find the magnetic current loop as shown V= Ir KI field of a...
I the magnetic al loop as shown current Find the magna loop a field of above. a Radius R. Question 2 los Ii In win ar = T 2242 - T- 15 v 8 125 How much current flows through the bottom wire and in which direction, Алт
What is the magnitude of the magnetic field of a loop carrying
constant current in the center of the loop?
B =
Magnetic field field due to a loop of current r=(x+ + y 12 dBy Imagine a thin current loop of radius R as in the figure above carrying a constant current I in the direction out of the page (the loop in the figure is turned slightly for a better view). What is the magnitude of the magnetic...
A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude B0 directed out of the page as shown in the figure.(Figure 1) Part A Determine the x, y, and z projections of the net force on the loop due to the field in terms of θ0. (Note that θ0 points to the dashed line, above which B = 0.)
A loop of wire with radius r=0.015 m is in a magnetic field with magnitude B as shown in the figure. B changes from B1 = 0.35 T to B2 = 4.5T in Δt=5.5s at a constant rate. The resistance of the wire is R=5Ω.Part (a) Express the magnetic flux going through a loop of radius r assuming a constant magnetic field B. Part (b) Express the magnetic flux change, 40, in terms of B1, B2, and r. Part (c) Calculate the...
The wire loop with current I, is placed in a magnetic field B = B ((cosa)i + (cosß)+ (cosy)ť) as shown. (a) Find the magnetic force acting on each side of this loop. What is the net magnetic force acting on the loop? (6) Find the initial magnetic dipole moment for this loop of current. (C) Find the initial magnetic torque acting on this loop of current. (d) Find the change of magnetic potential energy of the loop as it...
3. Find the magnetic field at a distance H on the axis of a circular loop of wire of radius R carrying a current I.
Find the magnetic field at the centre of a circular loop of radius R, which carries a steady current I. Use your result to calculate the magnetic field that the electron produces at the position of the nucleus in a hydrogen atom with the smallest Bohr orbit radius 0.529 Angstroms. Pretend the motion of the electron is classical.
[3] The rectangular loop shown below, carrying the current I, is located in a uniform magnetic field of 0.25 T pointing in the negative y direction. Using the following data: h4.0 cm, w4.0 cm, 33.5°, I 10.0 A, answer the following questions: a) What is the magnitude of the magnetic dipole moment of the loop? b) Find the magnitude & direction of the torque on the loop.
a) 5 pts Find the magnetic field at the exact center of a square current loop (current I running around a wire bent in the shape of a square of side a). b) 5 pts] If you had such a loop in a lab and wanted the B-field at the center, you might do the above calculation, but if you were planning an experiment and just wanted a rough estimate of the B-field, you might be tempted to use the...
considering the magnetic field in the center of a current carrying
loop of wire
7he magnetic field will he stronger if you increase the current you deeease the curient you switch the direction of the current The magnetic field will be stronger if you increase the radius of the loop you decrease the radius of the loop the radius won't affect the field strength the diagram to the righ, indicate the direction