What is the magnitude (in N/C) and direction of an electric field that exerts a 2 x 10-5 N upward force on a -1.8 µC charge?
1µC = 10-6 C
Indicate direction with a positive or a negative value. Keep in mind that a positive vector is directed upwards and a negative vector is directed downwards on the y axis. On the x axis, a positive vector is directed to the right and a negative vector is directed to the left.
Your answer should be a positive or a negative number with two decimal places, do not include the unit.
What is the magnitude (in N/C) and direction of an electric field that exerts a 2...
What is the magnitude (in N/C) and direction of an electric field that exerts a 2 x 10-5 N upward force on a -2 µC charge? 1µC = 10-6 C Indicate direction with a positive or a negative value. Keep in mind that a positive vector is directed upwards and a negative vector is directed downwards on the y axis. On the x axis, a positive vector is directed to the right and a negative vector is directed to the...
Question 9 10 pts What is the magnitude (in N/C) and direction of an electric field that exerts a 2 x 105 N upward force on a -1.5 μC charge? luC 106c Indicate direction with a positive or a negative value. Keep in mind that a positive vector is directed upwards and a negative vector is directed downwards on the y axis. On the x axis, a positive vector is directed to the right and a negative vector is directed...
0 1. (a) What is the magnitude and direction of an electric field that exerts a 2-10% N upward force on a -1.75 uC charge? ELE ZO Upward Downward 210 (b) What is the magnitude and direction of the force exerted on a 3.7 MC charge by a 220 electric field that points due east? IF N North East West South
1. A 2.00 nC charge and a –5.00 nC charge are 3.00 mm apart. What is the magnitude of the force of the 2.00 nC charge acting on the –5.00 nC charge? Group of answer choices –4.99 x 106 N –9.99 x 10–3 N 9.99 x 10–3 N 4.99 x 106 N 2. A negative charge is located at the origin. You will be calculating the electric field at some point on the +x–axis. What is the "r-hat" direction? to...
Calculate the magnitude of the electric field (in N/C) at 3.7 m from a point charge of 5.7 µC. You should round the answer to an integer, indicate only the number, do not include the unit. Hint: 1µC = 10-6C
Question6 10 pts What is the maximum torque (in N x m) created by a magnetic field 1.9 T on a 200-turn square loop 20.0 cm on a side if the loop is carrying 23 A? You should round your answer to the nearest integer. Do not indicate unit Question7 10 pts Two long, straight wires are perpendicular to the plane of the paper and at a distance 0.3 m from each other, as shown in the igure. The wires...
For starters, calculate the
magnitude and direction of the electric field due only to
charge q1 at this point.
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Incompatible units. No conversion found between "N" and the
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Calculate the magnitude and direction of the electric field
due only to charge q2 at this
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Calculate the magnitude and direction of the electric field
due only to charge q3 at this
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A uniform electric field with a magnitude of 5500 N/C points in the positive x direction. Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the positive x direction Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the negative x direction. Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the positive y direction.
A magnetic field has a magnitude of 1.20 10-3 T, and an electric field has a magnitude of 5.70 103 N/C. Both fields point in the same direction. A positive 1.8-µC charge moves at a speed of 3.40 106 m/s in a direction that is perpendicular to both fields. Determine the magnitude of the net force that acts on the charge.
Two long, straight wires are perpendicular to the plane of the paper and at a distance 0.4 m from each other, as shown in the figure. The wires carry currents of 11 = 1.8 A and 12 = 4 A in the direction indicated (out of the page). Find the magnitude and direction of the magnetic field (in uT) at a point A midway between the wires. You need to indicate the direction with a positive or a negative value...