Using Kirchhoff's rules, find the following. (e m f1 = 70.2 V, e m f2 =...

(PLEASE COMPLETE ALL PARTS OF THE QUESTION) A uniform thin rod of mass m = 2.9...

(PLEASE COMPLETE ALL PARTS OF THE QUESTION) A uniform thin rod of mass m = 2.9 kg and length L = 1.9 m can rotate about an axle through its center. Four forces are acting on it as shown in the figure. Their magnitudes are F1 = 5.5 N, F2 = 2.5 N, F3 = 11 N and F4 = 19.5 N. F2 acts a distance d = 0.23 m from the center of mass. A) Calculate the magnitude τ1...

A uniform electric field of magnitude 35 V/m is directed in the negative y direction as...

A uniform electric field of magnitude 35 V/m is directed in the negative y direction as shown in the figure. The coordinates of point A are (-0.2, -0.3) m, and those of point B are (0.4, 0.5) m. The electric potential difference VB - VA using the dashed-line path.

15- An electron is accelerated in a cathode ray tube through a difference in potential of...

15- An electron is accelerated in a cathode ray tube through a difference in potential of 5.0 kV. How much kinetic energy does the electron gain in this process? Write your result in the appropriate units. If your result is 2.0x10-3 N, write the result as 2.0e-3 N Use the letter e and the number of the exponent x next to it to express 10 24- When a 24(omega) resistor is connected to a battery where the terminal-to-terminal voltage is...

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions...

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions undergo a head-on collision. Ball A has mass mA = 2.6 kg and is traveling to the left, while ball B has mass mB = 1.3 kg and is traveling to the right. The balls are shown just before the collision in the figure below. (a) Which ball has the larger momentum (in magnitude) before the collision? Ball A Ball B Both balls have...

Consider the two parallel plates shown below containing equal and opposite charges. The top plate is...

Consider the two parallel plates shown below containing equal and opposite charges. The top plate is the positively charged plate. The potential difference between the plates is 20 V, and they are 0.50 m apart. Point A is a point in space 0.10 m above the bottom plate. Points B and C lie on a line 0.15 m below the top plate. In the space below the figure, answer the following questions. Calculate the potential difference between points A and...

1. A point charge - and a conducting solid sphere of charge density +a(C/m?) and radius...

1. A point charge - and a conducting solid sphere of charge density +a(C/m?) and radius a are shown in Figure I (centers of both charges are al 2a distance from the origin o) a) Draw the electric field vectors at the origin 0. (4 pts) b) Determine the direction and magnitude of the NET electric field E, at origin O. (11 pts) +(C/m?) e) Calculate the NET electric potential V at the origin O(10 pts)

The diagram below shows a block of mass m=2.00kgm=2.00kg on a frictionless horizontal surface, as seen...

The diagram below shows a block of mass m=2.00kgm=2.00kg on a frictionless horizontal surface, as seen from above. Three forces of magnitudes F1=4.00NF1=4.00N, F2=6.00NF2=6.00N, and F3=8.00NF3=8.00N are applied to the block, initially at rest on the surface, at angles shown on the diagram. (Figure 1) In this problem, you will determine the resultant (total) force vector from the combination of the three individual force vectors. All angles should be measured counterclockwise from the positive x axis (i.e., all angles are...

Two point charges are fixed in place along the x axis as shown in the figure...

Two point charges are fixed in place along the x axis as shown in the figure above. The charge Q1=-3 μμC is located at the origin. The charge Q2=4 μμC is a distance a = 0.46 m to the right of the origin. 1) Calculate the x component of the electric field at point P a distance h=0.32 m above the origin. Ex = -0.115 × 106 N/C Ex = -0.094 × 106 N/C Ex = 0.264 × 106 N/C...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg enters a magnetic field B = 0.55 T with initial velocity v = 230 m/s, as shown in the figure. The magnetic field points into the screen. q = -3.1 × 10-17C m = 4.7 × 10-26 kg B = 0.55 T v = 230 m/s   13% Part (a) Which direction will the magnetic force be on the charge?   13% Part (b) Express the...

A uniform disk with mass m = 8.88 kg and radius R = 1.3 m lies...

A uniform disk with mass m = 8.88 kg and radius R = 1.3 m lies in the x-y plane and centered at the origin. Three forces act in the +y-direction on the disk: 1) a force 334 N at the edge of the disk on the +x-axis, 2) a force 334 N at the edge of the disk on the –y-axis, and 3) a force 334 N acts at the edge of the disk at an angle θ =...