Calculate the monopole, dipole, and quadrupole terms of the potential of point charge q located at...

The electric potential at a position located a distance of 21.9 mm from a positive point...

The electric potential at a position located a distance of 21.9 mm from a positive point charge of 8.40×10^-9C and 10.3 mm from a second point charge is 1.26 kV. Calculate the value of the second charge. The potential at a position is the sum of the individual contributions to the potential by each of the 2 charges. The sign is important. Calculate the potential due to the first charge. The difference is due to the second charge.

Point charge 1.5 μC is located at x = 0, y = 0.30 m , point...

Point charge 1.5 μC is located at x = 0, y = 0.30 m , point charge -1.5 μC is located at x = 0 y = -0.30 m . What are (a)the magnitude and (b)direction of the total electric force that these charges exert on a third point charge Q = 4.5 μC at x = 0.40 m , y = 0? Part A Absolute Value F=? Part B Theta=?     clockwise from the +x direction

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m....

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m. In the following use r = 0.9584 × 10−10 m for the H-O distance and α = 104.45◦ for the H-O-H angle. a) One can imagine the total dipole of water as comprising of a charge +q on each hydrogen atom, and a charge −2q on the oxygen atom. Calculate the value of q in units of elementary charges given the values of p,...

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m....

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m. In the following use r = 0.9584 × 10−10 m for the H-O distance and α = 104.45◦ for the H-O-H angle. a) One can imagine the total dipole of water as comprising of a charge +q on each hydrogen atom, and a charge −2q on the oxygen atom. Calculate the value of q in units of elementary charges given the values of p,...

point charge -2.0 μC is located at x = 0 y = -0.30 m. What are...

point charge -2.0 μC is located at x = 0 y = -0.30 m. What are (a)the magnitude and (b)direction of the total electric force that these charges exert on a third point charge Q = 4.5 μC at x = 0.40 m, y = 0? Part A Express your answer using two significant figures. |F| F =

Two point charges q1 and q2 in a x-y coordinator. q1 has a charge of -3nC...

Two point charges q1 and q2 in a x-y coordinator. q1 has a charge of -3nC and located at (-2m, 0), q2 has a charge of 5nC and located at (1m, 0). Calculate following: A) electrical potential at (-1m, 0) B) electrcal field at (-1m, 0) C) if a third charge q3 of -2nC is located at (-1m, 0) position, what is the electrical force on q3.

Four point charges each having charge Q are located at the corners of a square having...

Four point charges each having charge Q are located at the corners of a square having sides of length a. (a) Find a symbolic expression for the total electric potential at the center of the square due to the four charges (Use any variable or symbol stated above along with the following as necessary: ke.) Vtotal =      (b) Find a symbolic expression for the work required to bring a fifth charge p from infinity to the center of the...

Q A thin arc is located in the xy-plane and contains a linear charge density of...

Q A thin arc is located in the xy-plane and contains a linear charge density of ρℓ = 4ε0 C/m. The arc dimensions are defined by ρ = 5 m and 0 ≤ φ ≤ π. Draw below the arc within its respective coordinate system. Also draw the position vector from a position along the arc to the point (0, 0, z) along the z-axis. Express mathematically the position vector from part (a). Use Coulomb’s law to find the electric...

Two positive point charges are held fixed on the x-axis. Point charge A is located at...

Two positive point charges are held fixed on the x-axis. Point charge A is located at the origin, and point charge B is located at the position x = −5.00 cm = −5.00✕10-2 m (on the negative x-axis). The magnitude of charge A is two times greater than that of charge B: qA = 2qB. ke = 8.9876✕109 Nm2/C2 (A.) The electric force on charge A has magnitude 0.344 mN = 0.344⨯10-3 N. What is the electric force (magnitude and...

1. Treacherous Triangle Trickery. Consider a charge distribution consisting of an equilateral triangle with a point...

1. Treacherous Triangle Trickery. Consider a charge distribution consisting of an equilateral triangle with a point charge q fixed at each of its vertices. Let d be the distance between the center of the triangle and each vertex, let the triangle’s center be at the origin, and let one of its vertices lie on the x-axis at the point x = −d. 1.1. Compute the electric field at the center of the triangle by explicitly computing the sum of the...