Sunlight reaches earth with an intensity of I = 1 kW.m-2. Knowing that the Earth-Sun distance is R₁ = 148 106 km and that the Mars-Sun distance is = 228 106 km, work out the intensity of sunlight on Mars in W/m^2. R2 Number Units
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- What is the wavelength (in m) of a radio signal with a frequency of 98.3 MHz? Enter the numerical part of your answer to three decimal figures. The speed of light in a vacuum (and in normal air) = Vlight = c = 3.00 × 108 m/s. Your Answer:The intensity of light is 42 W/m2. What are the amplitudes of the associated electric field and magnetic field? Electric field= ? Magnetic field= ?A star’s spectrum emits more radiation with a wavelength of 690.0 nm than with any other wavelength. If the star is 9.78 ly from Earth and its radius is 7.20 × 108 m, what will an Earth-based observer measure for this star’s intensity? Stars are nearly perfect blackbodies. (Note: ly stands for light-years.) Answer in W/m2
- The distance between Planet X and a star is 1.8 x 1011 m. At the surface of Planet X, the average intensity of the radiation from the star is 13440 W/m2. If the star radiates isotropically, which of the following is the average power of the star? a. 7.64 x 1024 W b. 5.47 x 1027 W c. 9.69 x 1026 W d.4.95 x 1028 WA traveling electromagnetic wave in a vacuum has an electric field amplitude of 73.3 V/m. Calculate the intensity S of this wave. Then, determine the amount of energy U that flows through area of 0.0249 m² over an interval of 16.1 s, assuming that the area is perpendicular to the direction of wave propagation. S = W/m? U J * TOOLS x10A point source emits electromagnetic energy at a rate of (1.034x10^2) Joules per second. What is the intensity of the electromagnetic radiation (1.01x10^1) m from the source? Express your result with three significant figures in mW/m². Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: Answer x10
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