The total electric field consists of the vector sum of two parts. One part has a...

The total electric field E consists of the vector sum of two parts. One part has...

The total electric field E consists of the vector sum of two parts. One part has a magnitude of E1 = 1012 N/C and points at an angle θ1 = 32° above the +x axis. The other part has a magnitude of E2 = 1667 N/C and points at an angle θ2 = 58° above the +x axis. Find the magnitude and direction of the total field. Specify the directional angle relative to the +x axis. magnitude N/C direction °...

GOAL Use the superposition principle to calculate the electric field due to two point charges. Consider...

GOAL Use the superposition principle to calculate the electric field due to two point charges. Consider the following figure. The resultant electric field  at P equals the vector sum 1 + 2, where 1 is the field due to the positive charge q1and 2 is the field due to the negative charge q2.Two point charges lie along the x-axis in the x y-coordinate plane. Positive charge q1 is at the origin, and negative charge q2 is at (0.300 m, 0). Point...

2. Two vectors, ~v1 and ~v2. ~v1 has a length of 12 and is oriented at...

2. Two vectors, ~v1 and ~v2. ~v1 has a length of 12 and is oriented at an angle θ1 = 30o relative to the positive x−axis. ~v2 has a length of 6 and is oriented at an angle θ2 = 0o relative to the positive x−axis (it is aligned with the positive x−axis) a. What are the magnitude and direction (angle) of the sum of the two vectors ( 1+2 ~v = ~v1 + ~v2)? b. What are the magnitude...

The two vectors a and b in the figure have equal magnitude of 9 m and...

The two vectors a and b in the figure have equal magnitude of 9 m and the angles are θ1 = 26° and θ2 = 95°. Find the x-component and y-component of their vector sum r. What is the magnitude of their vector sum r? Find the angle that their vector sum r makes with the positive direction of the x-axis.

In the sum A→+B→=C→, vector A→ has a magnitude of 13.1 m and is angled 43.6°...

In the sum A→+B→=C→, vector A→ has a magnitude of 13.1 m and is angled 43.6° counterclockwise from the +x direction, and vector C→ has a magnitude of 15.4 m and is angled 15.9° counterclockwise from the -x direction. What are (a) the magnitude and (b) the angle (relative to +x) of B→? State your angle as a positive number.

In the sum A→+B→=C→, vector A→ has a magnitude of 13.9 m and is angled 37.5°...

In the sum A→+B→=C→, vector A→ has a magnitude of 13.9 m and is angled 37.5° counterclockwise from the +x direction, and vector C→ has a magnitude of 13.0 m and is angled 23.0° counterclockwise from the -x direction. What are (a) the magnitude and (b) the angle (relative to +x) of B→? State your angle as a positive number.

In the sum A→+B→=C→, vector A→ has a magnitude of 11.4 m and is angled 40.0°...

In the sum A→+B→=C→, vector A→ has a magnitude of 11.4 m and is angled 40.0° counterclockwise from the +x direction, and vector C→ has a magnitude of 13.5 m and is angled 16.5° counterclockwise from the -x direction. What are (a) the magnitude and (b) the angle (relative to +x) of B→? State your angle as a positive number.

In the case of a uniform electric field and a flat surface, the electric flux is...

In the case of a uniform electric field and a flat surface, the electric flux is defined as the dot product of the electric field and the area, where the direction of the area is the normal to the area pointing out of a closed region. Consider a cube that measures 4.0 m on edge. The edges lie along the coordinate axes x, y, and z, with one corner at the origin, and the other corners having positive coordinates. A...

2. Vector Practice a. Determine the magnitude and direction of the sum (V1+V2)of the two vectors...

2. Vector Practice a. Determine the magnitude and direction of the sum (V1+V2)of the two vectors V1=3i+2j and V2=4i+j b. Determine the components of a vector, with a magnitude of 10.0 and a direction of 40.0 degrees above the positive x-axis.

A 6.50 −μC particle moves through a region of space where an electric field of magnitude...

A 6.50 −μC particle moves through a region of space where an electric field of magnitude 1400 N/C points in the positive x direction, and a magnetic field of magnitude 1.24 Tpoints in the positive z direction. If the net force acting on the particle is 6.21×10−3 N in the positive x direction, find the components of the particle's velocity. Assume the particle's velocity is in the x-y plane. Find vx,vy,vz