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Please help, this is as far as I can get without getting
stuck! Thank you in...
I don't know why I'm getting the first part wrong if you use the same numbers...
I don't know why I'm getting the first part wrong if you use the
same numbers for part 2.
Three point charges are located at the corners of an equilateral triangle as in the figure below. Find the magnitude and direction of the net electric force on the 1.70 μC charge. (Let A _ 1.70 μC, B-6.80 μC, and C -4.40 μ c.) 0.500 m 60.0° magnitude Your response differs significantly from the correct answer. Rework your solution from the...
Please help!! 18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction)...
Please help!!
18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at the location of a in the figure below, given that b - 8.90 uC and Qc -5.90 μC. Point charges located at the corners of an equilateral triangle 24.0 cm on a side. da gc Ib Magnitude IEl direction (wrt +x-axis) Submit Answer Tries 0/10 What is the force (magnitude and direction) on qa, given that qa -1.50 nc Magnitude IFI direction (wrt...
Need help solving this questions. I know it's a lot (I'm sorry in advance). I've solved...
Need help solving this questions. I know it's a lot (I'm sorry
in advance). I've solved a couple but I'm not sure if I'm correct.
Please show all your work so I can follow along.
oooo Sprint 16:30 70% Done ee135-winter19-01.courses.soe MVV #1 Due: Tuesday, January 22. Q.1: Two volleyballs, mass 0.3 kg each, tethered by nylon strings and charged with an electrostatic generator, hang as shown in Fig. Q.1. What s the charge on each, assuming the charges are...
please help with 1-6!!! Potential 1. Find the potential 3 cm from a 1 uC charge....
please help with 1-6!!!
Potential 1. Find the potential 3 cm from a 1 uC charge. How much energy is required to bring a 1 pC charge there from very far away? Four 5 uC charges are located at the corners of a square with side 12 cm. Find the potential: a) at the middle. b) at the center of one edge. 2. A 50 HF capacitor is held at a potential difference of 12 V. Find the charge on...
Consider the following. 0.500 mm 60.00 (a) Red blood cells often become charged and can be...
Consider the following. 0.500 mm 60.00 (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 of 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 = 2.40 PC, B = 6.90 pc, and C...
Three Charges are located at the corners of an equilateral triangle as show below A) Calculate...
Three Charges are located at the corners of an equilateral
triangle as show below
A) Calculate the electric field, E, in magnitude and direction,
at the point midway between the 8.00nC and -5.00nC charges on the
right hand side of the triangle.
B) If a charge q = -6.00nC is placed at this midpoint location,
what force F, in magnitude and direction would it experience?
C) If the charge in part B was only made of electrons (no
protons at...
I keep getting stuck in the process please show me step by step thank you
I keep getting stuck in the process please show me step by
step thank you
PLEASE SHOW ALL STEPS TO SOLUTION FOr PROPER CREDIT!! 4. Four charges of 2uC,4lc,-5MC and 6lC...
PLEASE SHOW ALL STEPS TO SOLUTION FOr PROPER CREDIT!! 4. Four charges of 2uC,4lc,-5MC and 6lC are located at the four corners of a rectangle as shown in figure. Find a) the electric fields of each charge in magnitude 915244 20cmp0 and direction at the center of rectangle. b) Indicate their directions in a vector field 10 cm diagram, and c) determine the magnitude and direction of the resultant field due to all 4 charges at the center C.
My solution so far: E = kQ/r2 E = kQ/a2 (^r) I think tan(45*) should be...
My solution so far:
E = kQ/r2
E = kQ/a2 (^r)
I think tan(45*) should be used, so it should be...
E = kQ/a2 (tan(45*))
Thank you.
Problem 1: Four charges lie at the corners of a square as shown, where the distance from each vertex to the center of the square is a. Three of the charges are positive (+q) and one of the charges is negative (-q). A fifth charge Q is located at the center of the...
Please answer this question correctly. I appreciate your help, thank you in advance. 2. A point...
Please answer this question correctly. I appreciate your help,
thank you in advance.
2. A point charge (7.0 pC) is located at the center of a spherical non-conducting surface (radius 2.0 cm), and a charge of 2.0 pC is spread uniformly upon this surface. Use Gauss' law (show work) and determine the magnitude of the electric field 3.0 crn from the point charge (pc-lo-t2 C, k-9 x 10" NnPC
I don't know why I'm getting the first part wrong if you use the
same numbers for part 2.
Three point charges are located at the corners of an equilateral triangle as in the figure below. Find the magnitude and direction of the net electric force on the 1.70 μC charge. (Let A _ 1.70 μC, B-6.80 μC, and C -4.40 μ c.) 0.500 m 60.0° magnitude Your response differs significantly from the correct answer. Rework your solution from the...
Please help!!
18.49-Conductors and Electric Fields in Static Equilibrium Find the electric field (magnitude and direction) at the location of a in the figure below, given that b - 8.90 uC and Qc -5.90 μC. Point charges located at the corners of an equilateral triangle 24.0 cm on a side. da gc Ib Magnitude IEl direction (wrt +x-axis) Submit Answer Tries 0/10 What is the force (magnitude and direction) on qa, given that qa -1.50 nc Magnitude IFI direction (wrt...
Need help solving this questions. I know it's a lot (I'm sorry
in advance). I've solved a couple but I'm not sure if I'm correct.
Please show all your work so I can follow along.
oooo Sprint 16:30 70% Done ee135-winter19-01.courses.soe MVV #1 Due: Tuesday, January 22. Q.1: Two volleyballs, mass 0.3 kg each, tethered by nylon strings and charged with an electrostatic generator, hang as shown in Fig. Q.1. What s the charge on each, assuming the charges are...
please help with 1-6!!!
Potential 1. Find the potential 3 cm from a 1 uC charge. How much energy is required to bring a 1 pC charge there from very far away? Four 5 uC charges are located at the corners of a square with side 12 cm. Find the potential: a) at the middle. b) at the center of one edge. 2. A 50 HF capacitor is held at a potential difference of 12 V. Find the charge on...
Consider the following. 0.500 mm 60.00 (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 of 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 = 2.40 PC, B = 6.90 pc, and C...
Three Charges are located at the corners of an equilateral
triangle as show below
A) Calculate the electric field, E, in magnitude and direction,
at the point midway between the 8.00nC and -5.00nC charges on the
right hand side of the triangle.
B) If a charge q = -6.00nC is placed at this midpoint location,
what force F, in magnitude and direction would it experience?
C) If the charge in part B was only made of electrons (no
protons at...
I keep getting stuck in the process please show me step by
step thank you
PLEASE SHOW ALL STEPS TO SOLUTION FOr PROPER CREDIT!! 4. Four charges of 2uC,4lc,-5MC and 6lC are located at the four corners of a rectangle as shown in figure. Find a) the electric fields of each charge in magnitude 915244 20cmp0 and direction at the center of rectangle. b) Indicate their directions in a vector field 10 cm diagram, and c) determine the magnitude and direction of the resultant field due to all 4 charges at the center C.
My solution so far:
E = kQ/r2
E = kQ/a2 (^r)
I think tan(45*) should be used, so it should be...
E = kQ/a2 (tan(45*))
Thank you.
Problem 1: Four charges lie at the corners of a square as shown, where the distance from each vertex to the center of the square is a. Three of the charges are positive (+q) and one of the charges is negative (-q). A fifth charge Q is located at the center of the...
Please answer this question correctly. I appreciate your help,
thank you in advance.
2. A point charge (7.0 pC) is located at the center of a spherical non-conducting surface (radius 2.0 cm), and a charge of 2.0 pC is spread uniformly upon this surface. Use Gauss' law (show work) and determine the magnitude of the electric field 3.0 crn from the point charge (pc-lo-t2 C, k-9 x 10" NnPC
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