Both the Keck Telescope and Hubble Space Telescope (HST) observe visible light. Given a typical visible light wavelength of 500 nm, and the diameters of 10 m for Keck and 2.4 m for Hubble, which telescope do you think would have better angular resolution? Based on the equation for angular resolution, what is the resolution of Keck at 500 nm? Of HST?
Q: 7. Two antennas are 30km away from one another. Calculate link budget and fade margin. Free space…
A:
Q: How does the resolving power of the Mount Palomar 5-m telescope compare with that of the 2.4-m…
A:
Q: The initials "FM" stand for frequency modulation. When broadcasting a radio wave, the constant…
A: Given that: y=Asin[2π(93,200,000 + 10,000sin 500πt)]t f(t)=93,200,000 + 10,000sin500πt A. Assigned…
Q: What is the largest diameter (convert your answer to the nearest 0.1 inch) you could use for a cone…
A:
Q: 2. K/U Your lab partner does the same amount of work on two different objects, A and B. After she…
A: The work done on an object is given by W=Fd Here, F is the force applied on the object. While d is…
Q: Question # 01 Regarding the application of X rays, thoroughly explain the Angiography modality While…
A: Angiography is the imagining of the interior organs or vascular. It is an advanced technique that…
Q: На Problem-1: What is M1 in case-a and case-b For given Mach wave angles
A:
Q: The speed of the material ejected in a supernova can be measured by using the Doppler shift of the…
A:
Q: If light were passed through a round hole instead of a thin slit in a spectroscope, how would the…
A: A spectroscope is a device used in measuring wavelength and energy of the light wave. This is done…
Q: What is the diffraction angle in degrees for a setup using a 5,587 Angstrom slit with a minima of…
A: d = 5,587 Å = 5,587×10-10 mn = 9Wavelength, λ = 38 nm =38×10-9 m
Q: For a PET system, if the FWHM resolution of a detector is 2 mm and the FWHM of collinearity is 2.2…
A: The combined FWHM of two Gaussian distributions can be obtained by,Here, FWHM resolution of the…
Q: Two wavelengths are used in Newton's ring experiment. Assume that the 9th bright ring of 511 nm…
A: Newton rings
Q: Q5. Consider a mono-static RADAR with the following parameters: f-10 GHz Transmitter frequency, the…
A: The given parameters are, Transmitted signal, Pt = 400 kW Transmitter frequency, f = 10 GHz Radar…
Q: O Calculate the distance of 5th dark band from the central bright band in a biprism experiment.…
A: To find-Distance of 5th dark band from central band (x5)=?Given-λ=6000 A0=6000×10-10 mDistance…
Q: The power of our microwave transmitters is about 15 mW. What is the approximate power of a typical…
A:
Q: 1) BPSK (3) 2) BOC(1,1)
A: Given: The objective is to find the main lobe(s) bandwidth for a GNSS signal modulates with BPSK (3)…
Q: A Michelson interferometer is set up with the interferometer arms initially with identical length…
A: 21) Given values: Length of the interferometer arms,L=10 cmPower, P=1 mWWavelength of the laser,…
Q: Find the change in radar cross section area of a cylindrical aero plane at different frequency…
A: The radar cross-section for the cylindrical airplane, normal to axis be defined as, Where a be…
Q: The resolution of diffraction grating increases as orders become higher. Imagine that there are two…
A: Wavelength of line 1, λ1= 525 nm Wavelength of line 1, λ2= 548 nm No. of slits or grooves, = 3300…
Q: 1-)Examine the frequency spectrum graphs of the DSB(t) and VSB(t) signals. What are the differences?…
A: Given: To examine the given graphs and answer.
Q: Calculate the angular size of the zero order diffraction spot (Airy disc) in the case of the…
A: The angular size of the zero-order diffraction spot (Airy disc) can be calculated using the…
Q: Michelson's interferometer played an important role in improving our understanding of light, and it…
A: Wavelength of laser light=646.0nm =646.0x10-9mDistance moved from the mirror1 is (d) =1.520mm…
Q: A bandwidth-limited radio signal has a spectrum occupying the frequencies from 240 kHz up to 260…
A: To determine the minimum undersampling rate required to create non-overlapping spectrum replicas of…
Q: A car travels due north along a straight line at position x = 1,090 m from the center point between…
A: Two radio antennas separated by d = 304 m A car travels due north along a straight line at position…
Q: A series of optical telescopes produced an image that has a resolution of about 0.00350 arc second.…
A: Given:-wavelength = 3.70 μmresolution = 0.00350 arc second1arcsec=1/3600∘
Q: The resolution of a spectrograph is given by R = npXW/(xDT), where n is the diffraction order, p is…
A: It is given that,R = resolution of spectro graph Where,n is teh diffraction order is ruling density…
Q: Find the remaining parts of the spherical triangle 1. a=95degrees 09’17”, c=79degrees 18’29”,…
A: Given a = 95° 09' 17" c = 79° 18' 29" C = 90° Find the remaining parts of the spherical…
Q: Is it possible for the first-order spectrum to overlap the second-order spectrum? Explain, assuming…
A: To determine: Is it possible for the first-order spectrum to overlap the second-order spectrum?…
Q: CA BCPS Links S Schoology x…
A: Step 1: The use of aluminum foil was an effective design element because electromagnetic (light)…
Q: Paragraph Drawing 6 Font A 50 MHz space wave takes 4.04 ms to reach a receiver via re-transmission…
A: Transmission of wave from transmitter to receiver via the satellite with the frequency 50MHz
Q: A space-based telescope can achieve a diffraction- imited angular resolution of 0.10" for red light…
A:
Q: 9. The JVLA radio observatory observes between 0.67 cm and 420 cm wavelengths. The telescopes are…
A: The resolving power of a telescope is defined as the ability of the telescope to differentiate…
Q: What frequency resolution would be needed to observe the 21cm line with a velocity resolution of 0.2…
A: Given data: Wavelength (λ) = 21 cm = 0.21 m Velocity (v) = 0.2 km/s = 200 m/s Required: The…
Q: What is tunnelling microscopy?
A: tunneling microscope is also known as a scanning tunneling microscope (STM) is a type of microscope…
Q: How can you calculate wave-number(cm-1) by using Hooks Law? Please shortly answer at your own words.…
A: The Hooke's Law is a mathematical formula that connects the stiffness of a spring attached to two…
Q: Discussion: 1. 2. 3. In the Newton's ring experiment, how does interference occur? Where have the…
A: In Newton's ring experiment a plano-convex lens is placed on a flat glass surface, creating an air…
Q: To separate the two wavelengths of 5000 and 5001 angstroms, we use a Fabry Pro. Suggest the…
A:
Q: why is it impractical to disperse light into a spectrum that has such high resolution in wavelength…
A:
Q: Calculate the wavelength of a soccer ball with a mass of 500 g that moves at a speed of 72 km/h, Is…
A: Given Data: m = 500 g = 0.5 kg v = 72 km/h = 20 m/s
Q: Explain with suitable example the relationship between co-channel reuse ratio, cluster size and…
A: Co channel reuse ratio = It is represented by the symbol Q. It is defined as square root of the 3…
Q: Two radio antennas separated by d = 270 m, as shown in the figure below, simultaneously broadcast…
A:
Q: justify the expenditure of space telescopes . discuss their ability with gamma and x ray wavelengths…
A: A space telescope, also known as a space observatory, is a telescope that is placed in space and…
Q: Two radio antennas separated by d = 290 m, as shown in the figure below, simultaneously broadcast…
A: The condition for a second maximum in the interference pattern is given by:Where: is the distance…
Q: Consider a telescope with a primary mirror diameter of 10 inches compared to one which has a primary…
A:
Q: If you’re driving at 60 km/h perpendicular to the central bisector of the towers, 4 km away still,…
A: Given data: The frequency is f=100 MHz. The speed is v=60 km/h. The distance between the tower and…
Q: Demonstrate (with a formula) in the refraction time of the "n" layer refraction wave is faster than…
A: In this question we are have to demonstrate that the refraction time of the "n" layer refraction…
Step by step
Solved in 2 steps with 1 images