1. A satellite 300 km above the surface of the Earth emits a radio wave pulse (wavelength = 25.0 m), Calculate the transit time for the wave to reach the surface of the Earth.
1. A satellite 300 km above the surface of the Earth emits a radio wave pulse...
please help me thank you! 3. A satellite 300 km above the surface of the Earth emits a radio wave pulse (wavelength = 25.0 m), Calculate the transit time for the wave to reach the surface of the Earth.
need help. please answer #7 and 8 7. A satellite 260 km above the surface of the Earth emits a radio wave pulse (wavelength = 18.0 m), Calculate the transit time for the wave to reach the surface of the Earth. 8. A radius 64.0 cm concave spherical mirror is used to project an image on a screen 3.50 m away. (a) calculate the object distance from the mirror. (b) Calculate the magnification of the image. (c) is the image...
please help me and thank you in advance In a supermarket, a convex mirror of radius of curvature 5.20 m is used for surveillance. A 1.80 m tall shopper is 12.0 m from such a mirror. (a) Where is her image? (b) What is the size of her image? A satellite 260 km above the surface of the Earth emits a radio wave pulse (wavelength = 18.0 m), Calculate the transit time for the wave to reach the surface of...
A satellite orbiting Earth at an altitude of 450 km emits a radio signal that has a power level of 17 W when it reaches Earth. The signal is beamed in such a way that it covers an area of 7.0 m^2 on Earth’s surface. What power is received by a ground-based antenna if the surface area of the antenna is 400 mm^2
A geostationary satellite is 42000 km above the earth surface. If the satellite latitude is 49o north with respect to the earth station and the spherical earth mean radius is 6371 km. Calculate the satellite angle EL and the polarization angle ψ
A radio station on the earth's surface emits a sinusoidal wave with average total power 50 kW (Fig. 32.19). Assuming that the trans- mitter radiates equally in all directions above the ground (which is unlikely in real situations), find the electric-field and magnetic field amplitudes Emax and Bmar detected by a satellite 100 km from the antenna 32.19 A radio station radiates waves into the hemisphere shown. Satellite = 100 km
m), Calculate the transit time for the wave to reach the surface of the Earth. 2. The electric field in an EM wave is given by (In St units): Ē = }(12) sin(1.1x10'x- on) [N/C] where j is the unit vector in the y-axis. calculate its wavelength. 3. You are looking, from directly above, at a goldfish at the bottom of a 44.0-cm fish tank filled
A satellite is in orbit around Earth at a height of 120 km above Earth’s surface. Find the orbital speed of the satellite. (Mass of the earth is 6*1024 kg and the radius of Earth is 6371 km)
A 345 kg satellite is orbiting 15500 km above the surface of Earth. The mass and radius of Earth are 5.972e+24 kg and 6378 km respectively. What is the kinetic energy of the satellite?
An Earth satellite moves in a circular orbit 808 km above Earth's surface with a period of 100.8 min. What are (a) the speed and (b) the magnitude of the centripetal accelerat ion of the satellite? (a) Number747E3 Units m b) Numberi7.7 Units m/s 2