Equal charge of 3.00x10-9C are situated at the three corners of a square of side 5.20m. Find the potential at the unoccupied corner.
Q: Two points, A and B, are separated by 0.0414 m. The potential at A is +72.9 V, and that at B is…
A: Given, The potential at A VA=+72.9 V The potential at B VB=+37.6 V The distance between the points A…
Q: d. d - P, d 4 Q, P, d Р. 2 P, 3 -d-
A: Potential due to two point charges is given by , V = K (Q1 /r1 + Q2 /r2) Where, r1 and r2 are the…
Q: The potential equals 7.84 V at the midpoint between two point charges that are 1.01 m apart. One of…
A:
Q: The 40nC charge is evenly distributed on a circular ring with a radius of 2m. Find the potential at…
A: Solution: The electric potential is given by: V=kQR2+x2 Here, V is the electric potential, Q is the…
Q: The work needed to carry a 5 C charge from point A to point B is 3 J. Calculate the potential…
A: Given:- The charge must be carry from point A to B The work (W)= 3 J charge =5 C Find:- The…
Q: Equal charges of 3 x 10^-9 C are situated at the three corners of a square of side 5.2 m. Find the…
A: Given : q1=q2=q3=3×10-9C r=5.2m Refer to the figure below : The length of the diagonal…
Q: Charges of ?1 = 5? , ?2 = −8?, ?3 = 2? are situated at the three corners of a triangle of height…
A: given,H=20ftB=12ftlet r be distance between q3 or q2 to point P,r =102+62 =11.66ftthen potential at…
Q: spherical rain drop carries a charge of 3.900E−8 C and has a potential of 8.698E4 V at the surface.…
A: Given Data: Charge (q) = 3.900×10-8 C.Potential (V) = 8.698×104 V.
Q: he drawing below shows four point charges. The value of q is 3.2 µC, a distance d is 840 mm.…
A:
Q: 13. A square is 1.0 m on a side. Point charges of +1C and -1 C are placed in two diagonall opposite…
A:
Q: Charges of ?1 = 5? , ?2 = −8?, ?3 = 2? are situated at the three corners of a triangle of height…
A: q1=5Cq2=-8Cq3=2CHeight =20ftBase=12 ft1m=3.28 ft
Q: Imagine you have four identical charge q, placed on the corners of a square. If q = 11.49 nC, then…
A:
Q: If the potential due to a point charge is 520 V at a distance of 15 m, what are the sign and…
A:
Q: adius 3.25 cm and length 5.6 cm has a total charge of 5.5 x 10-9 C distributed uniformly on its…
A: We know that the formula of the Electric potential is given as V = λ2πε0lnrR ------------ eq1…
Q: The potential equals 8.48 V at the midpoint between two point charges that are 1.07 m apart. One of…
A: The potential at the mid point is The distance between the charges is The firstcharge is given as…
Q: The potential equals 8.40 V at the midpoint between two point charges that are 1.03 m apart. One of…
A: Given Potential at the mid point is V=8.40 V Distance between the charges is d=1.03 m First charge…
Q: How much energy is necessary to place three charges, each of 5.0 uC, at the corners of an…
A: Given values: Charge, q1=q2=q3=q=5.0 μC Side of the equilateral triangle, a=0.200 m
Q: The work needed to carry a 2 C charge from point A to point B is 4 J. Calculate the potential…
A:
Q: Two identical charges q = (1/9.0) × 10−9 C are shown in the figure below. Find the potential at P.
A: q = 19 × 10-9 C r = 1.66 m θ = 45° To find = potential at P
Q: What are the sign and magnitude in coulombs of a point charge that produces a potential of -4.00 V…
A:
Q: The amount of work done due to carrying a q=+4μC charge from point A to point B is equal to w=100μJ.…
A: charge (q) = 4μC work (W) = 100μJ
Q: Consider a point charge of value 59 × 10-5 C. Part (a) At what distance from the 59 × 10-5 C…
A: Point charge (q) = 59×10-5 C Potential (V) = 68 V
Q: Imagine you have four identical charge q, placed on the corners of a square. If q = 11.49 nC, then…
A:
Q: The circular arc in the figure below has a uniform charge per unit length of 3.50 10-8 C/m. Find…
A: The electric potential at the centre of a circle is: V=kQR where, V= Electric potential Q= charge…
Q: 12 Consider a square of side p = 3.00 cm with charges of q = + 9.20 \mu C at each corner. Find _V…
A: Given
Q: A 5.5 μC charge moves 6.0 m from point A and 8.0 m to point B. Determine the potential at point A…
A: Given data: Magnitude of charge, q=5.5 μC=5.5×10-6 C Distance of charge from point A, rA=6 m…
Q: If the potential due to a point charge is 5.65 kilo-Volts at a distance of 18.5 m, what is the…
A:
Q: Imagine you have four identical charge q, placed on the corners of a square. If q = 5.48 nC, then…
A:
Q: The drawing below shows four point charges. The value of q is 3.2 µC, a distance d is 840 mm.…
A:
Q: Equal charges of 3.00 x 10-9 C are situated at the three corners of a sqaure of sides 5.20 m. Find…
A: Potential at any point due to a point charge is V=KQrK=9×109 F/m Let D is the corner where there…
Q: Two identical charges q = (1/9.0) × 10-9 C are shown in the figure below. Find the potential at P.…
A:
Q: How far from a 9.50 µC point charge will the potential be 210 V? At what distance will it be 4.20…
A: Given: Charge, Q = 9.50 µC = 9.50 ✕ 10-6 C Potential, V1 = 210V Potential, V2 = 4.20 ✕…
Q: Find the electric potential difference VB - VA due to a point charge q1 = -2.71 nC that is 0.210 m…
A:
Q: A spherical rain drop carries a charge of 3.200E−08 C and has a potential of 9.189E+04 V at the…
A: Given data, Charge on drop Q = 3.2× 10^(-8) C Potential on drop V = 9.189×10(^4) V We know that…
Q: The potential equals 8.80 V at the midpoint between two point charges that are 1.03 m apart. One of…
A:
Q: See attached image for picture that accompanies the problem. Three point charges q1 = 65 nC, q2 =…
A:
Q: A point charge of -6.0 nC is 3.00 m from point A and 5.00 m from point B. Find the potential at…
A:
Q: A total electric charge of 12.00 nC is distributed uniformly over the surface of a metal sphere with…
A: Write the given values of the problem- Total electric charge(q)=12.00 nCq=12×10-9 Cr=20 cmr=0.2 m…
Equal charge of 3.00x10-9C are situated at the three corners of a square of side 5.20m. Find the potential at the unoccupied corner.
Step by step
Solved in 4 steps with 1 images
