Which of the following correctly ranks the electric potential energy U of the particle-field system at the labeled points? A UA=UB=Uc =Up в (UB = Uc = Up) > UA c) UA > UB >Uc >Up D Up > Uc > UB >UA
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A negatively charged ion is initially moving to the right toward a pair of parallel plates, along the straight line that is midway between the plates. One plate has a positive charge, and the other has a negative charge of equal magnitude. As the ion approaches the plates, it follows the path shown by the dashed line. gravitational force is negligable. *help!!! i have my test tmw*
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- *can you help with 4a and subparts 4b and 4c *this is not and will not be graded On a typical clear day, the atmospheric electric field points downward and has a magnitude of roughly 100 N/C. 4a. How does the electric field and the (positive) charge acquired affect the bee? A. As the bee collects pollen (and positive charge), its effective weight increases. B. As the bee collects pollen (and positive charge), its effective weight decreases. 4b.What is the (gravitational) weight of an 0.1 gram Bumblebee? 4c.After the bee has acquired a charge of 23 pC, what is the magnitude of the electric force that adds/subtracts to its effective weight?A beam of electrons is incident on a region containing a uniform electric field as shown below. The electrons in the beam each have a speed of 4.5 × 10° m/s. While in the electric field the electrons accelerate toward the top plate. Positively charged plate Electron beam Negatively charged plate Note: You will want to make your measurements on this diagram. Based on your measurements, determine the strength of the uniform electric field strength in the region between the parallel plates4.) There are 3 charges below arranged in a triangle. a.) What is the total electrical potential difference at a point in the center of the triangle due to all 3 charges? b.) What is the total electrical potential difference, due to all 3 charges, at a point halfway between the two -2nC charges? 1.0 nC 3.0 cm, 3.0 cm 3.0 cm -2.0 nC -2.0 nC
- *can you help with 4c *this is not and will not be graded On a typical clear day, the atmospheric electric field points downward and has a magnitude of roughly 100 N/C. 4a. How does the electric field and the (positive) charge acquired affect the bee? A. As the bee collects pollen (and positive charge), its effective weight increases. B. As the bee collects pollen (and positive charge), its effective weight decreases. 4b.What is the (gravitational) weight of an 0.1 gram Bumblebee? 4c.After the bee has acquired a charge of 23 pC, what is the magnitude of the electric force that adds/subtracts to its effective weight?Item 9 A point charge with charge q1 = 2.80 μC is held stationary at the origin. A second point charge with charge q2 = -4.70 μC moves from the point (0.125 m, 0) to the point (0.250 m, 0.270 m ). Part A How much work is done by the electrostatic force on the moving point charge? Express your answer in joules. ► View Available Hint(s) W = 0.62558 Submit - ΑΣΦ Provide Feedback Previous Answers ? X Incorrect; Try Again; One attempt remaining JThe three q1=q2=q3 = 14 μC charges came into the arrangement shown below from very far apart. q1 is located at (0.00, 5.2) cm, q2 is located at (0.00, -5.2) cm and q3 located at (13.26, 0.00) cm a) How much work must be done to move the three charges into the arrangement shown if they started very far apart? b) What is the work if the particle on the right, q3, with mass 49.5 g, is released from rest and allowed to move freely to point P, twice 13.26 distance, figure below? c) How fast, in m/s, is q3 moving when it has moved to point P, twice 13.26 distance? To continue, please submit the result of part (c) in units of m/s. Round your answer to 0 decimal places.
- QUESTION 10 -e +e -e 8 cm 2 cm Two electrons (-e) are separated by 10 cm, and a proton (+e) is placed on the line connecting the two such that is is 2 cm from one of the electror (see diagram). Calculate the electric potential energy of the proton. (Give your swer in joules but don't include the units.) Click Save and Submit to save and submit. Click Save All Answers to save all answers. Save MacBook Air10 nC В A -5 nC You wish to place a charge at A, which when released will move away from the two charges shown, and then determine the speed of the charge when it gets an infinite distance away from the two charges. The rectangle is 18.4 cm high and 21.9 cm wide. In order for the charge placed at A to move to infinity, you must use an electron O a proton When released, approximately which direction will the charge initially accelerate? Image an analog clock face placed at A with 12 o'clock upward. toward 7 o'clock How fast will the charge be moving when it gets an infinite distance from the two charges? X m/sĒ 4περτ2 This problem checks your understanding of the term in the equation for the electric field due to a point charge, Consider a charged particle at a point S whose coordinates are (10 m, 10 m, 7 m). We would like to find the electric field vector at a point P whose coordinates are (4 m, 5 m, 5 m). The term is the distance between point S and point P. What is its value, in meters? 1 Q ↑
- Two 1.5 kg masses are 1.0 m apart (center to center) on a frictionless table. Each has + 9.6 μC of charge. For general problem-solving tips and strategies for this topic, you may want to view a Video Tutor Solution of Levitation. Part A What is the magnitude of the electric force on one of the masses? Express your answer with the appropriate units. F= Submit Part B Fit for Paredo for Part redo foart A reor Part A keyboard shortcuts for Part A help for Part A Value Request Answer Submit What is the initial acceleration of the mass if it is released and allowed to move? Express your answer with the appropriate units. for Rart for Part.Edo for Part redo folert 8 reor Part B keyboard shortcuts for Part 8 help for Part B Units Value Request Answer Units3.) There are three charges at 3 corners of a square as shown below. Each side of the square has length of d. a.) Find the symbolic expression for the total electrical field at the point P. As you derive the final expression, I expect to see your expressions for the x and y components of the electrical field of each charge. d d +2Q