Apply the concepts that you have learned by citing 1-2 examples of each of the following category shown below. 1. Nonuniform Electric Field 2. Uniform Electric Field 3. Gaussian Surface
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Q: Problem 24.26 Part A Two flat glass surfaces are separated by a 150-nm gap of air. What wavelength…
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Q: Activity 2 A small particle has charge - 5. 00 uC and mass 2.00 x 10 kg. It moves from point A,…
A: charge (q) = -5 μC mass (m) = 2×10-4 kg VA = +200 volts VB = +800 volts speed of particle at A = 5…
Q: 10. What is the resistance of a circuit with three 1.5V batteries and running at a current of 5A?…
A: The given circuit has three 1.5 V batteries connected to it. So the total potential difference…
Q: 1. Four point charges of q = 2.0 x 10-6 C are situated at the corners of a square of side 1.00 m.…
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Q: Part A A 3.5-cm-tall object is 12.0 cm in front of a concave mirror that has a 25 cm focal length.…
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Q: 7. Determine the acceleration of the system shown. 12 kg 8 kg
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Q: Part A A laser beam in air is incident on a liquid at an angle of 40.0° with respect to the normal.…
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A: The 6 kg hoop is initially at rest on the top of the inclined plane, 2.5 m in height. Being at rest,…
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A: Given : mass of hoop m = 6Kg diameter of hoop d = 3m height of inclined…
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A: Given: The speed of the bullet: v=760 m/s Distance of the target: d=900 m Length of the gun: l=1100…
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Q: Question 9 Calculate the total resistance of the circuit shown below. 24 0 48 0 A 16 2 B 24 2 C 72 0…
A: Equivalent resistance in series, Req = R1 + R2 + R3 +... => Req = 24 + 48 = 72 ohm
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- Activity 1 – Application of Electric Flux and Gauss’s Law Solve the following word problems. Show complete solutions to your answers. What is the electric field and electric flux of a sphere with radius of 0.500 m and carries a charge of +1.00 µC at its center?HELP!These questions are related.1. A 10-centimeter glass rod has a charge of +10 picocoulombs. What is the electric field 3 centimeters away from the center of the rod? 2. What would the field be if the rod had the same charge density, but was a mile long?Activity 1 – Application of Electric Flux and Gauss’s Law Solve the following word problems. Show complete solutions to your answers. 2. A long straight wire has a charge per unit length of 3.00 x 10 -12 C/m. At what distance from the wire is the electric field equal to 600 N/C
- Activity 1 – Application of Electric Flux and Gauss’s Law Solve the following word problems. Show complete solutions to your answers. 5. What must be the charge of an isolated spherical conductor 30.0 cm in diameter to produce an electric field of 150 N/C just outside the surface?1. Does the electric field depend on a test charge? 2. In exploring the electric field with a test charge, we have often assumed for convenience that test charge was positive. Does this really make any difference in determining electric field? 3. Why do we need the electric field?Activity 1 – Application of Electric Flux and Gauss’s Law Solve the following word problems. Show complete solutions to your answers. 4. A closed irregular surface encloses a net charge of 1.50 x 10 -6 what is the net electric flux through the surface?
- Use GFSA (Given, Find, Solution, and Answer) on the given space below. Encircle your final answer, write it in scientific notation with 2 decimal places (if possible). Determine the electric flux for a Gaussian surface that contains 100 million electrons.Can you specify how you derived the formula and determine the formula for example (r) is the distance.Solve the problem and draw and label a vector diagram in the given problem. Part 1. Two charges A (+30 µC) and B (–40 µC) are 60 cm apart. What is the net field strength at a point midway between them? Part 2. What is the net electric field intensity at a point 20 cm to the left of charge A in No.1? Assume that the point and the charges are collinear.THE PIC INDLUDED IS FOR BOTH QUESTIONS!! PLS HELP AND INCLUDE DRAWINGS IF NECESSARY. 1. Five particles with charges shown are arranged with four of them at the corners of a 1-inch square and the fifth charge in the middle. Find the net force and direction on a fifth 3uC particle placed in the center. 2. What is the total electric field at the center of the square of problem 1 if the charge at the center is removed?
- Activity 1 – Application of Electric Flux and Gauss’s Law Solve the following word problems. Show complete solutions to your answers. 3. How many excess electrons must be added to an isolated spherical conductor 0.100 meter in diameter to produce an electric field of 1800 N/C just outside the surface?1) Sketch the electric field lines on top of the figure above. Also sketch the electric field vector atpoint P. 2) Integrate to find the value of the electric field at point P.3) Find the force that would act on a 2.0 μC charge placed at point P.Solve for the electric field generated by: q= 9nC at (3, 9, 12)cm -Use the given formula (refer to the image) -please put some explanation on how to solve the problem (thank you)