In Fig. 24-41 a , a particle of elementary charge + e is initially at coordinate z = 20 am on the dipole axis (here a z axis) through an electric dipole, on the positive side of the dipole. (The origin of z is at the center of the dipole.) The particle is then moved along a circular path around the dipole center until it is at coordinate z = −20 nm, on the negative side of the dipole axis. Figure 24-41 b gives the work W a done by the force moving the panicle versus the angle θ that locates the particle relative to the positive direction of the z axis. The scale of the vertical axis is set by W as = 4.0 × 10 −30 J. What is the magnitude of the dipole moment? Figure 24-41 Problem 22.
In Fig. 24-41 a , a particle of elementary charge + e is initially at coordinate z = 20 am on the dipole axis (here a z axis) through an electric dipole, on the positive side of the dipole. (The origin of z is at the center of the dipole.) The particle is then moved along a circular path around the dipole center until it is at coordinate z = −20 nm, on the negative side of the dipole axis. Figure 24-41 b gives the work W a done by the force moving the panicle versus the angle θ that locates the particle relative to the positive direction of the z axis. The scale of the vertical axis is set by W as = 4.0 × 10 −30 J. What is the magnitude of the dipole moment? Figure 24-41 Problem 22.
In Fig.
24-41
a, a particle of elementary charge +e is initially at coordinate z = 20 am on the dipole axis (here a z axis) through an electric dipole, on the positive side of the dipole. (The origin of z is at the center of the dipole.) The particle is then moved along a circular path around the dipole center until it is at coordinate z = −20 nm, on the negative side of the dipole axis. Figure 24-41b gives the work Wa done by the force moving the panicle versus the angle θ that locates the particle relative to the positive direction of the z axis. The scale of the vertical axis is set by Was = 4.0 × 10−30 J. What is the magnitude of the dipole moment?
question about how the author got the equation in the red box from, as it makes no sense
No Chatgpt please will upvote h
Helicobacter pylori (H. pylori) is a helically-shaped bacterium that is usually found in the stomach. It burrows through the gastric mucous
lining to establish an infection in the stomach's epithelial cells (see photo). Approximately 90% of the people infected with H. pylori will
never experience symptoms. Others may develop peptic ulcers and show symptoms of chronic gastritis. The method of motility of H.
pylori is a prokaryotic flagellum attached to the back of the bacterium that rigidly rotates like a propeller on a ship. The flagellum is
composed of proteins and is approximately 40.0 nm in diameter and can reach rotation speeds as high as 1.50 x 103 rpm. If the speed
of the bacterium is 10.0 μm/s, how far has it moved in the time it takes the flagellum to rotate through an angular displacement of 5.00
* 10² rad?
Zina Deretsky, National Science
Foundation/Flickr
H. PYLORI CROSSING MUCUS LAYER OF STOMACH
H.pylori Gastric Epithelial
mucin cells
gel
Number
i
318
Units
um
H.pylori…
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