An electric dipole consists of two charges g=+2e and q, =-2e (e-1.6x10 C). separated by a distance d =10m. The electric charges are placed along the y-axis as shown in figure. = (3î + 3f)N/C is applied. Suppose a constant external electric field Et (a) What is the magnitude and direction of the dipole moment? (b) What is the magnitude and direction of the torque on the dipole?
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- Consider the following. B 0.500 mm 60.0° (a) Red blood cells often become charged and can be treated as point charges. Healthy red blood cells are negatively charged, but unhealthy cells (due to the presence a bacteria, for example) can become positively charged. In the figure, three red blood cells are oriented such that they are located on the corners of an equilateral triangle. The red blood cell charges are A = 1.80 pC, B = 6.60 pC, and C = -4.40 pC. Given these charges, what would the magnitude and direction of the electric field be at cell A? magnitude N/C direction ° counterclockwise from the +x axis (b) If the charge of cell A were doubled, how would the electric field at cell A change? O The magnitude of the field would be doubled. O The field would be unchanged. O The magnitude of the field would be halved. O The magnitude of the field would be quadrupled.In this example, we will analyze the motion of an electron that is released in an electric field. The terminals of a 100 V battery are connected to two large, parallel, horizontal plates 1.0 cm apart. The resulting charges on the plates produce an electric field E in the region between the plates that is very nearly uniform and has magnitude E = 3.0×104 N/C. Suppose the lower plate has positive charge, so that the electric field is vertically upward, as shown in (Figure 1). (The thin pink arrows represent the electric field.) If an electron is released from rest at the upper plate, what is its speed just before it reaches the lower plate? How much time is required for it to reach the lower plate? The mass of an electron is mẹ = 9.11 x 10-31 kg. The thin arrows represent the uniform electric field. 1.0 cm 100 V In this example, suppose a proton (mp = 1.67 × 10-27 kg) is released from rest at the positive plate. What is its speed just before it reaches the negative plate? Express your…Review Conceptual Example 11 before attempting to work this problem. Four charges with equal magnitudes of 9.24 x 10-12 Care placed at the corners of a rectangle. The lengths of the sides of the rectangles are 3.23 cm and 6.21 cm. Find the magnitude of the electric field at the center of the rectangle in Figures a and b. (a) Number (b) Number i i 2, E13 E24 E24 44 3 +9 +9 +9 4 +4 Units Units (b) +9
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