#3 and #4 please
Preparation: 1. If we were to sample a periodic signal at a randomly chosen point in its period, the value of the sample would be a random variable. The distribution of this random variable is termed the amplitude distribution of the periodic signal. Derive and plot the amplitude distribution of the sinusoid, triangular, and square wave...
A uniform magnetic field of magnitude 0.80 T in the negative z-direction is present in a region of space. A uniform electric field is also present. In Figure 20.3, theelectric field is set at 42,400 V/m in the positive y-direction. An electron is projected with an initial velocity vo = 5.3 × 104 m/s in the positive x-direction. They-component of...
A long solenoid has a diameter of 9.48 cm. When a current i exists in its windings, a uniform magnetic field of magnitude B = 40.5 mT is produced in its interior. By decreasing i, the field is caused to decrease at the rate of 9.02 mT/s. Calculate the magnitude of the induced electric field (a) 0.980 cm and (b)...
6) A 2 GHz ground-penetrating radar sends a signal into non-magnetic semi-dry soil that has 2.5 relative permittivity and 10-2 loss tangent. Find the distance the signal travels before: (a) its electric field amplitude is reduced by 20%, (b) its phase shifts by 180°, and (c) its average power density is reduced by 10%.
i don't think this is right i need help.
X 10. Electric Circuit Analysis' - (4 pts) - The current 11 - 12 = 1 A. What is the net magnetic field at points A, B, C, and D? A B 1 0.1 m TAOT B=0.55 C=0.55 D-11 с D 12 0.1 m кога се the Gan
The helium-neon lasers most commonly used in student physics laboratories have average power outputs of 0.250 mw. (a) If such a laser beam is projected onto a circular spot 4.62 mm in diameter, what is its intensity? W/m2 (b) Find the peak electric field strength V/m (c) Find the peak magnetic field strength. Additional Materials
A long solenoid has a diameter of 16.2 cm. When a current i exists in its windings, a uniform magnetic field of magnitude B = 39.4 mT is produced in its interior. By decreasing i, the field is caused to decrease at the rate of 9.47 mT/s. Calculate the magnitude of the induced electric field (a) 4.70 cm and (b)...
A long solenoid has a diameter of 9.97 cm. When a current i exists in its windings, a uniform magnetic field of magnitude B = 26.7 mT is produced in its interior. By decreasing i, the field is caused to decrease at the rate of 8.82 mT/s. Calculate the magnitude of the induced electric field (a) 2.16 cm and (b)...
A long solenoid has a diameter of 12.2 cm. When a current i exists in its windings, a uniform magnetic field of magnitude B = 42.4 mT is produced in its interior. By decreasing i, the field is caused to decrease at the rate of 8.00 mT/s. Calculate the magnitude of the induced electric field (a) 4.37 cm and (b)...
A long solenoid has a diameter of 12.8 cm. When a current i exists in its windings, a uniform magnetic field of magnitude B = 39.8 mT is produced in its interior. By decreasing i, the field is caused to decrease at the rate of 7.31 mT/s. Calculate the magnitude of the induced electric field (a) 2.50 cm and (b)...