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A: given that,q1=10 μCq2=-20 μCq3=30 μCAB=BC=42+32AB=BC=5 mangle ϕ=tan-143=53.13°γ=180-2ϕ=73.74°angle…
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In the figure below, what will be the charge distribution of the two initially electrically neutral conducting spheres when Sphere M is moved to the right? Notice the positively charged rod near Sphere L. Also note that Spheres L and M are touching each other before their separation
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- I have a piece of PVC that keeps attracting particles to it like dust, hair, etc. (seemingly to be statically charged to the PVC). Please explain the process of why it is happening and provide sources for the information used to answer the question.In this problem we explore dipoles as sources of fields and their interactions with other charges An induced dipole is a dipole (separated, opposite charges) whose charge separation and dipole moment are caused by the presence of an external electric field, often due to some other source charge. Often, the induced dipole moment is proportional to that electric field at the location of the dipole. For example, when a charged piece of tape is near your finger, the charges inside the neutral atoms in your finger move in response to the tape's field at the location of the finger, and each atom in the finger becomes a dipole. The closer the tape is to the finger, the stronger the tape's field, the more the charges move and the larger the dipole moments of the atoms in the finger. Mathematically, we can write this as p = aE, where p is the dipole moment, E is the strength of the electric field at the location of the dipole, and a is a constant that depends on the type of atom and gives the…Two uncharged metal spheres located on top of insulating poles are initially in contact as shown below. A positively charged insulator is brought close to sphere 1 without touching and then the spheres are separated before the positively charged insulator is removed. What are the signs of the final charges on the two spheres?
- When you rub a glass rod with silk you electrically charge the glass rod (and the silk). Likewise, when you rub a plastic rod with fur you electrically charge the plastic rod (and the fur). However, when you place the charged rods near each other you notice that they attract. What can you conclude about the sign of the charge on each? Can you determine just from this experiment the sign of the charge on each rod? Yes, they have equal charges, either positive or negative. Yes, the have opposite charges, the glass rod is negative and the plastic rod is positive. Yes, the have opposite charges, the plastic rod is negative and the glass rod is positive. If the two rods attract each other, then we can conclude that they have opposite charges. However, we cannot conclude from this experiment alone which one is negative and which one is positive. SInce the two rods attract each other they must have like charges, because like charges attract.…Consider the following load distribution:"A thin disk of radius R has a charge Q evenly distributed over its entire area."Using Coulomb's Law to find the electric field associated with this charge distribution, "at points on the disk axis"; a) Find the equation that describes the movement of an abandoned electron at any point on the axis of the disk.Hello! I need some help on this! Consider the arrangement of two fixed point charges, equal in magnitude, shown in the figure. Which of the following statements are correct for the initial motion of a third charge if it is released from rest in the vicinity of the two charges shown?
- A positive charge of 3 C is placed at (3,0) and another positive charge of 3 Cis placed at (21,0). What is the direction of the net electric field at (12, 12)? Coordinate units are in meters. O positive y direction O none of the above O positive x direction O negative y direction negative x directionAnswer it correctly please. I will rate accordingly with multiple votes. Answer only if 100% correct. My last attempt.You have two identical conducting spheres, each of mass m and charge q, charged with oppositely charges. They are separated by a distance 'd'. What should be the charge on each sphere so the force of attraction between the spheres will be equal to the weight of each sphere ? Take Coulomb constant as simply 'k'. Group of answer choices on the image: