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90-10i / Solve the problems below if the location of some points are given as: Point...
se the following values ifneeded: e 1.6x10-19C; k-9.0x10"Nn? /C" olve the problems below if the location...
se the following values ifneeded: e 1.6x10-19C; k-9.0x10"Nn? /C" olve the problems below if the location of some points are given as: Point A is at position (-3.0j+4.0k)cm; Point B is at position (4.0k)cm; Point C is at position (3.0i-2j+5.0k)em Point D is at position (-3.0jenm cm. 1. Charges of -4.0 uC and +9.0 pC are at A and B respectively. What is the electric field at point D? 2. Charges of -4.0 uC and+9.0 HC are at A and...
Use the following values ifneeded: e=1.6x10"C; に90x10,Nnr/e. Solve the problems below if the location of some...
Use the following values ifneeded: e=1.6x10"C; に90x10,Nnr/e. Solve the problems below if the location of some points are given as: Point A is at position (-3.0j +4.0k)cm; Point B is at position (4.0k)m Point C is at position (3.0i-2)+5.0k)cm Point D is at position (-3.0jam 1. Charges of-4.0 uC and +9.0 C are at A and B respectively. What is the electric field at point D? 2. Charges of-40pC and +90 μC are at A and B respectively. What is...
Problem 4 - Electric Potential I. [8 points] Point charges +4.00 uC and +2.00 uC are...
Problem 4 - Electric Potential I. [8 points] Point charges +4.00 uC and +2.00 uC are placed at the opposite corners of a rectangle as shown in the figure. What is the potential at point A due to these charges? Assuming the potential at infinity is zero. Coulomb's constant k = 9.0 x 10°N • m²/C2 A +4.00 xC 0.400 m +2.00 uc 0.800 m B II. [12 points] Two isolated copper plates, each of area 0.40 m2, carry opposite...
(a) If an estimateence of 4.00 kV. Pld l he den. 64. Two charges of 1.0...
(a) If an estimateence of 4.00 kV. Pld l he den. 64. Two charges of 1.0 μC and-20 ortance μC are 0.50 m apart at two verti- 0.50 m uallel ces of an equilateral triangle as 0.50 m in Figure P16.64. (a) What is the electric potential due to the 1.0-uC charge at the third vertex, point P? (b) What is the electric potential due to the -2.0-uC charge at P? mem- 0.50 m -2.0 μC Figure P16.64 ates (c)...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0 uC +1.0 uC +2.0 μC 3.0 uC +4.0 HC +X +X +6.0 uC Diagram 1 Diagram 2 a. Without doing any calculations, does the electric field at the origin in diagram 1 have a magnitude that is greater than, less than, or equal to the magnitude of the field at the origin in diagram 2? Justify your answer b. Lets say the distance between...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0 uC +1.0 uC +2.0 μC 3.0 uC +4.0 HC +X +X +6.0 uC Diagram 1 Diagram 2 a. Without doing any calculations, does the electric field at the origin in diagram 1 have a magnitude that is greater than, less than, or equal to the magnitude of the field at the origin in diagram 2? Justify your answer b. Lets say the distance between...
What is the amount of work done to bring +10 mC charge from infinity to the...
What is the amount of work done to bring +10 mC charge from
infinity to the point A? Potential at infinity is zero.
13. What is the amount of work done to bring a +10 HC charge from infinity to the point A? Potential at infinity is zero (a) -0.51J (b) +0.27 (c) -0.27 (d) +0.51J A. 3.0 m 4.0 m +20 uC
need help Problems (20 points each) 1. a) For the following collection of point charges, calculate...
need help
Problems (20 points each) 1. a) For the following collection of point charges, calculate the magnitude and direction of the total electric field at point P. 750 HC doun to the right 80 cm a The equivele b The total on The power d 30 cm -100 HC 10 cm 100 HC b) What is the electric potential at point P?
Sorry this is the real question #3 not #2 I have solved #2. With number #3...
Sorry this is the real question #3 not #2 I have solved #2.
With number #3 I have gotten help before with this problem but
I cannot understand the hand writhing. Please help!
Problem 3: Consider the arrangement of three point charges in a right triangle shown in the figure, which have charges q1- 7.5 uC, 42-51 HC, and 93 15 uC. The distance between q1 and q2 is 37 cm and the distance between q2 and q3 is 65...
Three point charges are located at the corners of an equilateral triangle, whose side l =...
Three point charges are located at the corners of an equilateral triangle, whose side l = 0.5 m. The charges have magnitude -7.00 μC, 2.00 μC and 2.00 μC respectively. (a) Calculate the total electric potential energy of these charges. (b) How much work must be done to move the 2.00 μC charge to infinity, leaving the other two charges in place? (d) Find the (net) electric field at the midpoint between the 2.00 μC and -2.00 μC charges.
se the following values ifneeded: e 1.6x10-19C; k-9.0x10"Nn? /C" olve the problems below if the location of some points are given as: Point A is at position (-3.0j+4.0k)cm; Point B is at position (4.0k)cm; Point C is at position (3.0i-2j+5.0k)em Point D is at position (-3.0jenm cm. 1. Charges of -4.0 uC and +9.0 pC are at A and B respectively. What is the electric field at point D? 2. Charges of -4.0 uC and+9.0 HC are at A and...
Use the following values ifneeded: e=1.6x10"C; に90x10,Nnr/e. Solve the problems below if the location of some points are given as: Point A is at position (-3.0j +4.0k)cm; Point B is at position (4.0k)m Point C is at position (3.0i-2)+5.0k)cm Point D is at position (-3.0jam 1. Charges of-4.0 uC and +9.0 C are at A and B respectively. What is the electric field at point D? 2. Charges of-40pC and +90 μC are at A and B respectively. What is...
Problem 4 - Electric Potential I. [8 points] Point charges +4.00 uC and +2.00 uC are placed at the opposite corners of a rectangle as shown in the figure. What is the potential at point A due to these charges? Assuming the potential at infinity is zero. Coulomb's constant k = 9.0 x 10°N • m²/C2 A +4.00 xC 0.400 m +2.00 uc 0.800 m B II. [12 points] Two isolated copper plates, each of area 0.40 m2, carry opposite...
(a) If an estimateence of 4.00 kV. Pld l he den. 64. Two charges of 1.0 μC and-20 ortance μC are 0.50 m apart at two verti- 0.50 m uallel ces of an equilateral triangle as 0.50 m in Figure P16.64. (a) What is the electric potential due to the 1.0-uC charge at the third vertex, point P? (b) What is the electric potential due to the -2.0-uC charge at P? mem- 0.50 m -2.0 μC Figure P16.64 ates (c)...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0 uC +1.0 uC +2.0 μC 3.0 uC +4.0 HC +X +X +6.0 uC Diagram 1 Diagram 2 a. Without doing any calculations, does the electric field at the origin in diagram 1 have a magnitude that is greater than, less than, or equal to the magnitude of the field at the origin in diagram 2? Justify your answer b. Lets say the distance between...
Consider the drawings below. All the charges are the same distance from the origin *y 5.0 uC +1.0 uC +2.0 μC 3.0 uC +4.0 HC +X +X +6.0 uC Diagram 1 Diagram 2 a. Without doing any calculations, does the electric field at the origin in diagram 1 have a magnitude that is greater than, less than, or equal to the magnitude of the field at the origin in diagram 2? Justify your answer b. Lets say the distance between...
What is the amount of work done to bring +10 mC charge from
infinity to the point A? Potential at infinity is zero.
13. What is the amount of work done to bring a +10 HC charge from infinity to the point A? Potential at infinity is zero (a) -0.51J (b) +0.27 (c) -0.27 (d) +0.51J A. 3.0 m 4.0 m +20 uC
need help
Problems (20 points each) 1. a) For the following collection of point charges, calculate the magnitude and direction of the total electric field at point P. 750 HC doun to the right 80 cm a The equivele b The total on The power d 30 cm -100 HC 10 cm 100 HC b) What is the electric potential at point P?
Sorry this is the real question #3 not #2 I have solved #2.
With number #3 I have gotten help before with this problem but
I cannot understand the hand writhing. Please help!
Problem 3: Consider the arrangement of three point charges in a right triangle shown in the figure, which have charges q1- 7.5 uC, 42-51 HC, and 93 15 uC. The distance between q1 and q2 is 37 cm and the distance between q2 and q3 is 65...
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