Point charges of 108 Q are placed at each corner of an equilateral triangle, which has...
Point charges of 108 Q are placed at each corner of an equilateral triangle, which has sides of length 12 L. What is the magnitude of the electric field at the mid-point of any of the three sides of the triangle in units of kQ/L2? kQ/L2 A: 0.2262 B: 0.3280 C: 0.4756 D: 0.6897 E: 1 Hints: Step #1: Draw the triangle and the charges. Step #2: Identify the electric field generated by each charge at the mid-point. Step #3 Calculate the total electric field: ET = E1 + E2 + E3 Remember that: E = kQ/R2
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Point charges of 108 Q are placed at each corner of an
equilateral triangle, which has...
Point charges of 36 Q are placed at each corner of an equilateral triangle, which has...
Point charges of 36 Q are placed at each corner of an equilateral triangle, which has sides of length 4 L. What is the magnitude of the electric field at the mid-point of any of the three sides of the triangle in units of kQ/L2? kQ/L2 Hints: Step #1: Draw the triangle and the charges. Step #2: Identify the electric field generated by each charge at the mid-point. Step #3 Calculate the total electric field: ET = E1 + E2...
**Please answer ALL parts. Thanks A point charge gives rise to an electric field with magnitude...
**Please answer ALL parts. Thanks
A point charge gives rise to an electric field with magnitude 4 N/C at a distance of 6 m. If the distance is increased to 24 m, then what will be the new magnitude of the electric field? N/C Submit Answer Tries 0/2 Point charges of 54 Q are placed at each corner of an equilateral triangle, which has sides of length 6 L. What is the magnitude of the electric field at the mid-point...
Three points charges are placed in the corners of a equilateral triangle ABC with sides 2.0...
Three points charges are placed in the corners of a equilateral triangle ABC with sides 2.0 m as shown in the figure. Find the electric field at the mid point (P) of side BC. (E is a vector, need magnitude and direction.) -5 HC -6 HC
Three charges are placed at the corner of an equilateral triangle. The bottom two corners each...
Three charges are placed at the corner of an equilateral triangle. The bottom two corners each have a +1nC charge. Toe top of the triangle contains a -1nJ charge. The top of the triangle points in the +y direction and the sides are 10 cm long. What is the force felt by the negative charge?
1.Charges of 4.0 μC and −6.0 μC are placed at two corners of an equilateral triangle...
1.Charges of 4.0 μC and −6.0 μC are placed at two corners of an equilateral triangle with sides of 0.10 m. At the third corner, what is the electric field magnitude created by these two charges? Draw the figure and show your work
QueSUH Charges of 4.0 C and -6.0C are placed at two corners of an equilateral triangle...
QueSUH Charges of 4.0 C and -6.0C are placed at two corners of an equilateral triangle with sides of 0.10 m. At the third corner, what is the electric potential created by these two charges?
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle...
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle of side length L as shown in the figure below: a) What is the total force on the charge q at the top of the triangle? b) What is the electric field at the center of the triangle?
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle...
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle of side length L as shown in the figure below: a) What is the total force on the charge q at the top of the triangle? b) What is the electric field at the center of the triangle?
Question 1: Three point charges are placed at the corner of an equilateral triangle. Draw lines...
Question 1: Three point charges are placed at the corner of an equilateral triangle. Draw lines to represent force vectors to show the resultant force acting on a 5 μC charge. -15 uC
3 point charges (Q1=Q, Q2=Q, Q3=20) are placed on an equilateral triangle of side a centered...
3 point charges (Q1=Q, Q2=Q, Q3=20) are placed on an equilateral triangle of side a centered on the origin and lying on the x-y plane. 1) Calculate the V field at the center of the triangle 2) Calculate the E field at the center of the triangle
**Please answer ALL parts. Thanks
A point charge gives rise to an electric field with magnitude 4 N/C at a distance of 6 m. If the distance is increased to 24 m, then what will be the new magnitude of the electric field? N/C Submit Answer Tries 0/2 Point charges of 54 Q are placed at each corner of an equilateral triangle, which has sides of length 6 L. What is the magnitude of the electric field at the mid-point...
Three points charges are placed in the corners of a equilateral triangle ABC with sides 2.0 m as shown in the figure. Find the electric field at the mid point (P) of side BC. (E is a vector, need magnitude and direction.) -5 HC -6 HC
QueSUH Charges of 4.0 C and -6.0C are placed at two corners of an equilateral triangle with sides of 0.10 m. At the third corner, what is the electric potential created by these two charges?
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle of side length L as shown in the figure below: a) What is the total force on the charge q at the top of the triangle? b) What is the electric field at the center of the triangle?
3. Three point charges q,2q, and -3q are placed at the corners of an equilateral triangle of side length L as shown in the figure below: a) What is the total force on the charge q at the top of the triangle? b) What is the electric field at the center of the triangle?
Question 1: Three point charges are placed at the corner of an equilateral triangle. Draw lines to represent force vectors to show the resultant force acting on a 5 μC charge. -15 uC
3 point charges (Q1=Q, Q2=Q, Q3=20) are placed on an equilateral triangle of side a centered on the origin and lying on the x-y plane. 1) Calculate the V field at the center of the triangle 2) Calculate the E field at the center of the triangle
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