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- Rank the following scenarios in terms of the strength of the force between particles A and B from strongest to weakest. QA and QB are the charges of particles A and B, and d is the distance between the particles. If two of the scenarios have forces are equal in strength, mention that. (Ranking the order of the letters is fine.) (a) QA = +2 µC, QB = +2 µC, and d = 4 m (b) QA = −4 µC, QB = −2 µC, and d = 2 m (c) QA = +2 µC, QB = +4 µC, and d = 4 m (d) QA = +1 µC, QB = +1 µC, and d = 1 m (e) QA = −1 µC, QB = +2 µC, and d = 2 mWater molecule is modeled as a dipole with an effective separation, d = 3.9×10-12 m between its positive and negative charges. The water molecule’s dipole moment is p = 6.2×10-30 C∙m. Consider water molecules in the lower atmosphere where the electric field has a magnitude of about 325 N/C. Assume the field is uniform. (a) What is the maximum torque exerted on a water molecule? (b) Find the change in potential energy if a water molecule rotates from j = 170o to j = 180o?True or false: The stir bar is magnetized to stir using a magnet in the stir plate.
- Needs Complete typed solution with 100 % accuracy.Two charged particles exert an electrostatic force of 10 N on each other. What will the magnitude of the electrostatic force be if the distance between the two charges is reduced to one-half of the original distance?In the early 1900s, scientists modelled the hydrogen atom as an electron orbiting a proton. Like when we look at the Earth and Sun, we can consider the proton to be stationary, and the electron to be in orbit around the proton in a perfect circle. Unlike the Earth and Sun, the force responsible for the circular motion of the electron is the attractive electric force between the proton and electron. All other forces can be ignored. Experiments showed that the electron's orbital radius was 5.29x10^-11m. a) Calculate the speed of the electron in its orbit. b) Show that the circumference of the electron's orbit (2 times pi times radius) is about equal to the electron's De Broglie wavelength at that speed. Electron: mass = 9.11x10^-31kg, charge = -1.60x10^-19C. Proton: mass = 1.67x10^-27kg, charge = +1.60x10^-19C. Coulomb's constant: k = 9.00x10^9 Nm^2/C^2 Planck's constant: h = 6.63x10^-34 Js
- i was able to know it’s attractive because it goes in the same direction but the answer (a) i got was incorrectFour current carrying wires are arranged in a square determines the direction of the b force that each wire exerts on wire aA hydrogen atom contains a single electron that moves in a circular orbit about a single proton. Assume the proton is stationary, and the electron has a speed of 7.6 105 m/s. Find the radius between the stationary proton and the electron orbit within the hydrogen atom.
- In the configuration of charges shown in the figure above, a=3.85a=3.85 cm. What is the magnitude of the force on the 1.0 nC charge?Your clothing tends to cling together after going through the dryer. Why? Would you expect more or less clinging if all your clothing were made of the same material (say, cotton) than if you dried different kinds of clothing together?Find the magnitude (in N/m) and direction (in degrees counterclockwise from the +x-axis) of the force per unit length that each wire experiences in the figure below, using vector addition. 1₁ ·X· 1₁ A B 11 C D Wire A B C D 12 I₁ = 22.0 A, I₂ = 11.0 A, and x = 14.0 cm Magnitude 7.32e-2 7.32e-2 X N/m 5.18e-2 X N/m 5.19e-2 X N/m X N/m 45 -45 89 -89 Direction X X