Determine the magnitude and direction of the electromagnetic force between the two charges 55C, -33C separated by the distance 34 nm. Give the full solution and illustrate the problem.
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- An electron travels from right to left at 3 x 10° m/s when it encounters the B field pictured below. The magnitude of the field is 1Tesla. Draw a picture of the electron's path in the field with the correct direction. Calculate the radius of curvature. х хFour electrons are orbiting a stationary proton along a perfect circle with a constant speed v as shown below. Find the orbital speed and frequency of this circular motion if the radius of the orbit is 0.4. 10-¹0m. The elementary charge q = 1.6 · 10-¹⁹C and the electron mass m₂ = 9.11 · 10−³¹ kg. -31 V - q • q -q V The orbital speed, v = 2.51E6 x Units m/s - q The frequency of orbital motion, f 9.99E15 x Units Hz ✓✓.A single proton is accelerated in a uniform E-field (directed eastward) at 3.2x10^8 m/s^2. Find the magnitude of the field and direction of the acceleration.
- A point charge for which Q = 4.2 × 10-16 C and m = 2.5 x 10-26 kg is moving in the combined fields E = 250ax + 115ay - 230a, V/m and B = 2ax - ay - 3a, mT. If the charge velocity at t = 0 is v(0) = (2ax + 4ay +3az) × 105 m/s: %3D give the unit vector showing the direction in which the charge is accelerating at t = 0. find the kinetic energy of the charge at t = 0. Answers: a. Blank 1ax + Blank 2ay + Blank 3 az b. Blank 4 fJconcern recent clinical results using electric fields to disrupt rapidly dividing tumor cells. When cells are dividing, some elements of the cell develop a small net charge, and others develop a dipole structure with a positive charge on one end and a negative charge on the other. When a uniform electric field is applied to the body, the field will not be uniform inside the body. The motion of charges and polarization effects, both of which vary strongly from place to place, create a field that is quite variable at the level of the cell. The field is strong in some places and weak in others. The varying field exerts forces and torques on the cell components. This can disrupt cell division, which can have an especially large impact on the rapidly dividing cells in a tumor. To illustrate this idea, we consider a cylindrical element with a dipole structure but no net charge,embedded in a dividing cell. The varying environment of the cell createsa local variation in the strength of the…Five equal negative charges are uniformly spaced in a semicircular arc of radius ro with its center at the origin. The charges positions in polar coordinates are given by ( ro, θi ), where the values of θi are 0°, 45°, 90°, 135°, and 180°. At the position ( x, y ) = ( ro, −ro ) in the 4th quadrant, which statement best describes the direction of the resulting electric field? Group of answer choices The direction is that of a 2nd quadrant angle. The direction is that of a 4th quadrant angle. The direction is that of a 1st quadrant angle. The direction is that of a 3rd quadrant angle.
- REMEMBER DON'T USE ARTIFICIAL INTELLIGENCE, DON'T USE CHATGPT, ETC... PLEASE GIVE ME THE SOLUTION BY HAND STEP BY STEP CLEARLYconcern recent clinical results using electric fields to disrupt rapidly dividing tumor cells. When cells are dividing, some elements of the cell develop a small net charge, and others develop a dipole structure with a positive charge on one end and a negative charge on the other. When a uniform electric field is applied to the body, the field will not be uniform inside the body. The motion of charges and polarization effects, both of which vary strongly from place to place, create a field that is quite variable at the level of the cell. The field is strong in some places and weak in others. The varying field exerts forces and torques on the cell components. This can disrupt cell division, which can have an especially large impact on the rapidly dividing cells in a tumor. To illustrate this idea, we consider a cylindrical element with a dipole structure but no net charge,embedded in a dividing cell. The varying environment of the cell createsa local variation in the strength of the…A 28 x 10-6 C point charge is held at rest within a uniform Electric field of 810.2 N/C directed in the +x direction. If the charge is released from rest, what will its speed be after moving 0.73 m in the +x direction. Assume only the electric filed force acts and that the mass of the charge is 4.31 x 10-7 kg