For the three charges in triangular configuration, What is the calculate force F2 in newton at 5-micro coulomb? (Hint:micro =10 to the power of negative 6 end exponent)
For the three charges in triangular configuration, What is the calculate force F2 in newton at...
1. A total charge of 3.35 C is distributed on two metal spheres. When the spheres are 10.00 cm apart, they each feel a repulsive force of 4.5*10^11 N. How much charge is on the sphere which has the lower amount of charge? 2. 2 equal charges, 15 micro Coulomb each, are separated by 5 cm. Find force between those. 3. Add 5 micro Coulombs and 7,098 nano Coulombs and get the result in nano Coulombs unit. 4. How many...
Find the magnitude of the electric field at the center of the triangular configuration of charges in the figure shown below, given that charge a is 2.50nC, charge b is negative 8.00nC, charge c is 1.50nC, and the length of each side of the triangle is 25.0cm. Note the triangle is an equilateral triangle. Finding the center is not trivial, I suggest doing some research; Wikipedia is a good place to start. Note the number of significant figures in the...
For the three force system shown, calculate: For the three force system shown, calculate: 1 F2 30 45° 3 COLLAPSE IMAGES F, 281 lb F 85 lb The magnitude of F2 such that the sum of F, F2, and Fs in the x direction is zero. 217.150 1 tries remaining 50 pointfs) possible b ENTER The direction of the resultant force FR deg ENTER 2 tries remaining. 50 pointis) possible
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below.
Electric Potential of Point Charges 2 Three charges are at three corners of a rectangle with side L-4 m and L2 = 4.8 m : as shown below. If q1-1.5 pC, q2 = 2.4 pC, and q3 =-3.4 pC, what is the electric L.2 potential (V) at the fourth corner? (Please note: the charge is given in micro- Coulomb.) 964.47 Hint: Calculate the clectric.potential at the fourth corner due to each of the point charges and remember that they add...
Figure 1: Configuration of the manometer system Figure 2, a triangular panel (with base B As shown in (b) submerged. When the depth of the water h reaches 6 m, the base of the submerged part of the triangular panel is B 4 m For this case, assume that the water temperature is 10°C and find: (i The resultant force on the panel due to pressure (ii) The location where this force acts. (ii) The force R needed to keep...
20----03 Three parallel wires of length L = (9.5260x10^-1) m are positioned in a triangular configuration as shown in the figure. Each side of the equilateral triangle has length a = (2.26x10^-2) m. If each wire carries a current of / = (4.190x10^-3) A out of the page, what is the magnitude of the net magnetic force on wire 1? Express your answer using three significant figures. Use a symbol of units when entering your answer, for example s for...
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below. 6.00 µC charge: magnitude Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. N direction 1.50 µC charge: magnitude N direction -2.00 µC charge: magnitude N direction (6)------(1.5)-------(-2) <---3cm--><----2cm-->
Calculate the magnitude and direction of the Coulomb force on each of the three charges shown in the figure below. 6.00 μC 1.50 ,C -2.00 μC 3.00 cm 2.00 cm 6.00 HC charge magnitude 6.00 HC charge direction select B 1.50 HC charge magnitude 1.50 uC charge direction elect. -2.00 HC charge magnitude 2.00 HC charge direction Need Help? Read It 5 -Select--
︺uesuon y (0.5 points) 3 charges. 2 peach. are located on three vertices A B. C of an equilateral triangle with sides 1 cm each. Another charge q located at the mid point D of the side BC. Calculate q in micro Coulomb so that net force on the charge at A due to the charges at B, C and D is zero Your Answer Answer units