1. A high energy pulsed laser emits 1.50 nano second-long pulse of average power 1.70 × 10 11 W. The beam is cylindrical with 1.70 mm in radius. Determine the rms value of the B-field?
2. What is the total energy transported per hour along a narrow cylindrical laser beam 1.70 mm in diameter, whose E-field has an rms strength of 2.40×10−22.40×10−2 N/C ?
1. A high energy pulsed laser emits 1.50 nano second-long pulse of average power 1.70 ×...
7. What is the total energy transported per hour along a narrow cylindrical laser beam 2.30 mm in diameter, whose B-field has an rms strength of 9.67 x 10- T?
What is the total energy transported per hour along a narrow cylindrical laser beam 2.00 mm in diameter, whose E-field has an rms strength of 3.90 × 10 − 2 N/C ?
A laser emits a cylindrical beam of light 2.6 mm in diameter. If the average power of the laser is 2.6 mW , what is the rms value of the electric field in the laser beam? (Units for the answer is kV/m)
A laser emits a cylindrical beam of light 2.6 mm in diameter. If the average power of the laser is 2.4 mW, what is the rms value of the electric field in the laser beam? Express your answer using two significant figures.
8. A 2.2-cm high object is situated 11.5 cm in front of a concave mirror that has a radius of curvature of 12.0 cm. What is the height of the image? x 24 cm 3. A high energy pulsed laser emits 3.50 nano second-long pulse of average power 1.60 x 1011 W. The beam is cylindrical with 2.10 mm in radius. Determine the rms value of the B-field? x 3.478 T
A helium-neon laser emits an unpolarized pulse of light carrying an energy of 0.35 Joules in 225 fs pulses (1 femtosecond = 10^-15 s). Each pulse encounters three polarizers as shown in the picture (polarization angles measured with respect to the vertical axis). (a) What is the average power emitted by the laser during each pulse? (b) If the beam is cylindrical with a 2.0mm diameter, find the average intensity Io of the pulse. (c) Find ? such that the...
A laser emits a cylindrical beam of light 2.0 mm in diameter. Part A If the average power of the laser is 2.2 mW , what is the rms value of the electric field in the laser beam? Express your answer using two significant figures. Erms = kV/m
A laser emits a cylindrical beam of light 2.9 mm in diameter. Part A If the average power of the laser is 2.4 mW , what is the rms value of the electric field in the laser beam? Express your answer using two significant figures. Erms = kV/m
A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a wave has an rms value of Erms = 2.50 109 N/C. Find the average power of each pulse that passes through a 2.40 10-5 m2 surface that is perpendicular to the beam.
A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a wave has an rms value of Erms = 2.0 × 109 N/C. Find the average power of each pulse that passes through a 1.6 × 10-5-m2 surface that is perpendicular to the laser beam. A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a wave has an rms value of E 2.0 x 109 NIC. Find the average...