Admin: • Assignment 10 posted. Due on Monday • Review lecture Monday. Any requests? (I know… Thevenins…) • Final exam 10:30am Friday 22 nd , in here. • Online course evaluations begin today • Anonymous, and hidden from me until after the end of the semester (June 15 th ) • I do appreciate your (constructive) feedback – especially if you’ve attended class regularly. • http://www.udel.edu/course-evals
18
Embed
Admin: Assignment 10 posted. Due on Monday Review lecture Monday. Any requests? (I know… Thevenins…) Final exam 10:30am Friday 22 nd, in here. Online course.
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Admin:• Assignment 10 posted. Due on Monday• Review lecture Monday. Any requests?
(I know… Thevenins…)• Final exam 10:30am Friday 22nd, in here.
• Online course evaluations begin today• Anonymous, and hidden from me until after the end of
the semester (June 15th )• I do appreciate your (constructive) feedback –
Example 27-3: Magnetic Force on a semicircular wire.
A rigid wire, carrying a current I, consists of a semicircle of radius R and two straight portions as shown. The wire lies in a plane perpendicular to a uniform magnetic field B0. Note choice of x and y axis. The straight portions each have length l within the field. Determine the net force on the wire due to the magnetic field B0.
See the book for the full solution (there are some tricks)
27-4 Force on an Electric Charge Moving in a Magnetic Field
Example 27-5: Magnetic force on a proton.
A magnetic field exerts a force of 8.0 x 10-14 N toward the west on a proton moving vertically upward at a speed of 5.0 x 106 m/s (a). When moving horizontally in a northerly direction, the force on the proton is zero (b). Determine the magnitude and direction of the magnetic field in this region. (The charge on a proton is q = +e = 1.6 x 10-19 C.)
27-4 Force on an Electric Charge Moving in a Magnetic Field
Example 27-6: Magnetic force on ions during a nerve pulse.
Estimate the magnetic force due to the Earth’s magnetic field on ions crossing a cell membrane during an action potential. Assume the speed of the ions is 10-2 m/s.
27-4 Force on an Electric Charge Moving in a Magnetic Field
Example 27-6: Magnetic force on ions during a nerve pulse.
Estimate the magnetic force due to the Earth’s magnetic field on ions crossing a cell membrane during an action potential. Assume the speed of the ions is 10-2 m/s.
Large Hadron Collider: circumference=27kmr=circ/2π=4.3km
mv2/r = qvBv=c=3e8 m/sm=1.7e-27 kgq=1.6e-19 C
B=0.7 Tesla
Earth ~0.e-4 Tesla
In total, over 1,600 superconducting magnets are installed, with most weighing over 27 tonnes.[37] Approximately 96 tonnes of superfluid helium 4 is needed to keep the magnets, made of copper-clad niobium-titanium, at their operating temperature of 1.9 K (−271.25 °C), making the LHC the largest cryogenic facility in the world at liquid helium temperature. Each dipole magnet is 14.3 meters long and weighs around 35 tons.
27-4 Force on an Electric Charge Moving in a Magnetic Field
The aurora borealis (northern lights) is caused by charged particles from the solar wind spiraling along the Earth’s magnetic field, and colliding with air molecules.