1. In the case of the specific color and the angle of the polarizer axis, explain...

Unpolarized light with an intensity of 680 W / m2 is incident on a polarizer with...

Unpolarized light with an intensity of 680 W / m2 is incident on a polarizer with an unknown axis. The light then passes through a second polarizer with has an axis which makes an angle of 79.5° with the vertical. After the light passes through the second polarizer, its intensity has dropped to 196 W / m2. 1) What is the angle between the axes of the polarizers in degrees? 2) What angle from the vertical is the first polarizer's...

Thanks So much in advance! 1. Unpolarized light with an intensity of 510 W / m2...

Thanks So much in advance! 1. Unpolarized light with an intensity of 510 W / m2 is incident on a polarizer with an unknown axis. The light then passes through a second polarizer with has an axis which makes an angle of 77.5° with the vertical. After the light passes through the second polarizer, its intensity has dropped to 188 W / m2. What is the angle between the axes of the polarizers? 2.Unpolarized light of intensity I0 is incident...

Unpolarized light passes through a linear polarizer with TA at 20° from the vertical. 1. What...

Unpolarized light passes through a linear polarizer with TA at 20° from the vertical. 1. What is the polarization of the emerging light if it passes through a QWP with SA horizontal? Use Jones Matrices to show that the light emerging from the QWP is elliptically polarized. 2. Determine the angle of inclination of its major axis relative to the horizontal direction, the ratio of its major to minor axes and its sense of rotation. 3. If the light emerging...

An electric dipole lies on the x-axis containing a charge of -2.5 nC at x =...

An electric dipole lies on the x-axis containing a charge of -2.5 nC at x = -10.0 cm, and a +2.5 nC charge at x =+10.0 cm. Find the electric field 1 on the x-axis at the point (20.0 cm, 0) 2 on the y-axis at the point (0, 10.0 cm) In the model of the hydrogen atom, the proton,(+e) and electron, (-e) (having charge =±e =±1.6X10^−19C) are separated by 5.29x10^-11m. Calculate the electric potential energy of this atom. Suppose...

2. A circular ring with a radius R of 1 cm carries a charge density of...

2. A circular ring with a radius R of 1 cm carries a charge density of ?L = R sin ? (? is an azimuthal angle) µC/cm. The ring is then placed on the xy plane with its axis the same as the z-axis. Find the electric field intensity E and the electric potential V on point A on z-axis 2 cm from the xy plane.

1. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C....

1. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C. One charge is placed at x = -3.00 m and the other at x = 3.00 m. What is the electric potential at the midpoint between the charges, x = 0 m? 2. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C. One charge is placed at x = -3.00 m and the other at x = 3.00...

Explain the following observation. Be specific in your answer. 1. Injection of excess beta-catenin into the...

Explain the following observation. Be specific in your answer. 1. Injection of excess beta-catenin into the ventral side of an oocyte, causes a second axis to form.

+1 nc is placed at the origin and -1 nc is placed on the x-axis 1...

+1 nc is placed at the origin and -1 nc is placed on the x-axis 1 meter away. Find the total Electric field in components form and magnitude angle form for points given P1 = (0,1)      namely the point with coordinate x = 0 y = 1 P2 = (0.5, 1) P3 = (1,1) P4 = (1.5, 1)

Explain the potential impacts of a union relative to a firm's MFC. Be specific and explain...

Explain the potential impacts of a union relative to a firm's MFC. Be specific and explain the impact to the relationship between MFC / MRP, the competitiveness of the firm, the impact to hiring, etc. Are unions necessary? Why or why not are they both beneficial and hurtful to both the firm and the employees.

Two point charges are placed on the x-axis. The charge +2q is at x = 1.5...

Two point charges are placed on the x-axis. The charge +2q is at x = 1.5 m, and the charge −q is at x = −1.5 m. (a) There is a point on the x-axis between the two charges where the electric potential is zero. Where is this point? x = ______________ m (b) The electric potential also vanishes in one of the following regions. Identify the appropriate region. Is it: Region 1: 5.0 m > x > 1.5 m...