3. What is the smallest size of features on the moon can you observe using a...
What is the linear size of the smallest feature on the moon you could resolve with a Galilean telescope that has an objective lens with a diameter of 58.0 mm? Assume that the resolution would be diffraction limited and that the moon is 380,000 km away. Take the wavelength of light as 550 nm, which is near the peak of our sensitivity. Please include units of answer.
If you don't solve this problem correctly in 3 tries, you can get a hint. Use the angular resolution for the Hubble Telescope to determine the smallest detail which it can observe on the moon, if the moon is 3.82 x 10 m away. Assume an average wavelength of 500 nm, and that the telescope's diameter is 2.40 m. The headlights of a car are 1.14 Vm apart. What is the maximum distance at which the eye can resolve these...
3) (10 pts) The Thirty Metre Telescope (TMT) is a 30m diameter telescope to be built on Mauna Kean in Hawaii. The Hubble Space Telescope is a 2.4m diameter telescope in orbit around the Earth. a) (2.5 pts) What are the angular resolutions of both telescopes when observing in "visible" light (1 = 550 nm)? How many times better or worse is the HST compared to the TMT? b) (2.5 pts) What are the angular resolutions of both telescopes when...
The Moon is one of the few astronomical objects that the unaided eye can see in any detail. 3. Estimate the angular resolution limit of the human eye at 550 nm. Take the diameter of the a. pupil to be 4 mm. b. How does this compare with the angular resolution limit of a 20 cm amateur telescope, observing at the same wavelength? What is the minimum size of a crater on the Moon that can be resolved in each...
qm 09.2 2. (i) In one dimension, the momentum operator is given by d Ô = -ih- dx Determine the x dependence of the (un-normalised) momentum eigenfunction for a particle of momentum p, free to move along the x axis. [4 marks] (ii) A particle that is free to move along the x axis is described by a wavefunction v(x) = 1/ va, 0, |x<a/2 1x1 >a/2. (a) Show that the probability of measuring a momentum between p and p...
I have Part C and E left ??how to do it ? Consider light from a helium-neon laser (λ=632.8 nanometers) striking a pinhole with a diameter of 0.160 mm . Part A At what angle θ1 to the normal would the first dark ring be observed? θ1 = 0.276 ∘ Correct Part B Suppose that the light from the pinhole projects onto a screen 3.00 meters away. What is the radius r1 of the first dark ring on that screen?...
1. You want to observe the size and shape of a cell. What is the easiest staining technique that you could perform? Name at least one dye you would use during this process. Click here to enter answer - 2. You suspect a patient may have TB. Once a sample has been obtained it is sent off to the lab for an acid-fast stain. If the patient were infected with TB, describe what you would expect to see on the...
Part D What is the angular radius 0 of the first dark ring for a point source being imaged by this telescope? Use 550 nanometers for the wavelength,since this s near the average for visible light Express your answer in degrees, to three significant figures 197 ΑΣφ Request Answer Diftraction due to a circular aperture is important in astronomy Since a tolescopo has a circular aporture of finite size, stars are not imagod as points, but rathor as iftraction patterns....
Determine the average distance from Jupiter for the Europa moon using the third Kepler law. Use the distance of it and the given periods shown in the table. Compare your result with the one in the Table. 7. Determine la distancia promedio desde Júpiter para la luna Europa usando la tercera ley de Kepler. Use la distancia de lo y los períodos dados que se muestran en la tabla. Compare su (5 puntos) resultado con el de la Tabla TABLE...
I need (c) and (d) answered 3 Satellite There are claims that a spy satellite can read license plate numbers from space or read a newspaper over your shoulder. In this problem, we will assess these claims using wave optics. (a) Reading a licence plate number requires a linear resolution of about 5 cm. (You must be able to distinguish objects that are 2 inches apart.) For a satellite at a height of 150 km, what angular resolution does this...