(a) Determine the net force exerted on q1 by the other two charges. (b) If q1 had a mass of 1.50 g and it were free to move, what would be its acceleration
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The drawing shows three point charges fixed in place. The charge at the coordinate origin has a value of q1 = +9.06 C; the other two have identical magnitudes, but opposite signs: q2 = -5.74 C and q3 = +5.74 C. (a) Determine the net force exerted on q1 by the other two charges. (b) If q1 had a mass of 1.50 g and it were free to move, what would be its acceleration?
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- Three point charges are located on the x-axis at the following positions: Q1 = +7.00 µC is at x = 1.00 m, Q2 = +3.00 µC is at x = 0.00, and Q3 = -5.00 µC is at x = -3.00 m. What is the magnitude of the electric force on Q3? (k = 1/4TE0 = 9.0 x 10^9 N. %3D m2/C2)Two point charges are fixed on the x-axis as follows: Q1 = +5.00E-6 C is located at x = +0.300 m and Q2 = –7.00E-6 C is at x = +0.600 m. What are the magnitude and direction (use positive sign for +x and negative sign for –x directions) of the net electrical force exerted by these two charges on a third charge Q3 = –8.23E-6 C placed at the origin, Q3 = 0.00 m (in Newtons)? If two electrons are placed each 2.11E-10 m from a proton as shown, what is the magnitude of the net electrical force they exert on the proton (in Newtons)? (USE THE PICTURE I POSTED FOR THIS QUESTION WITH THE 45 DEGREE ANGLE) If two electrons are placed each 2.11E-10 m from a proton as shown, what is the magnitude of the net electrical force they exert on the proton (in Newtons)? On the x axis, a point charge Q1 = +4.80E-6 C is placed at the origin x = 0.00 m, and another point charge Q2 = +5.74E-6 C is placed at x = +5.00 m. Now the third point charge Q3 = –3.60E-6 C is placed on the x axis between Q1 and…The drawings show three charges that have the same magnitude but may have different signs. In all cases the distance d between the charges is the same. The magnitude of the charges is |q|=7.3 µC, and the distance between them is d=3.2 mm. Determine the magnitude of the net force on charge 2 for each of the three drawings. 1 (a) F= i (b) F= i (c) F= i +q 2 (a) +q 3 +q 1 +q 2 (b) +q 3 > > +q 1 21 Id +q 3
- Consider the following figure. (The four charges are at the corners of a square. Take q = 1.11 µC and Q = 1.99 µC.) (a) In the figure, what are the magnitude and direction of the resultant force on q1? (Take q1 as the origin of the coordinate system and measure the angle counterclockwise from the positive x-axis, which is directed towards the right.) (b) What is the resultant force on the center of mass of the four charges?Two positive point charges, each of which has a charge of 3.7x10^-9 C, are located at y=+.4 m and y= -.6 m. Find the magnitude and direction of the resultant electric force acting on a charge of 2.0x10^-9 c located at y= .7mThe drawing shows three point charges fixed in place. The charge at the coordinate origin has a value of q₁ = +9.70 μC; the other two have identical magnitudes, but opposite signs: q2 = -6.26 μC and q3= +6.26 μC. (a) Determine the net force exerted on q₁ by the other two charges. (b) If q₁ had a mass of 1.50 g and it were free to move, what would be its acceleration? (a) Number i (b) Number i Units Units 1.30 m, 23.0⁰ 23.0 1.30 m 92 43 +x
- The drawings show three charges that have the same magnitude but may have different signs. In all cases the distance d between the charges is the same. The magnitude of the charges is lal-9.4 µC, and the distance between them is d-4.1 mm. Determine the magnitude of the net force on charge 2 for each of the three drawings. (a) F-i (b) Fi (c) F= i (M) (0 +9Two tiny conducting spheres are identical and carry charges of -27.1 μC and +42.0 μC. They are separated by a distance of 2.69 cm. (a) What is the magnitude of the force that each sphere experiences? (b) The spheres are brought into contact and then separated to a distance of 2.69 cm. Determine the magnitude of the force that each sphere now experiences.