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What else can I help you with?
What was the hottest temperature ever recorded in Chicago IL?
Officially it's 105, set in 1995 during the infamous heat wave. Unofficially it's 109, set in 1935.
If someone weighs 105 kilograms how many pounds do they weigh?
105 pounds = 47.6 kg
What is 105 c in f?
105 degrees Celsius = 221 degrees Fahrenheit
How much does 105 tons equal in pounds?
105 tons is 210,000 pounds.
Convery 105 kilos to LBs and OUNCES?
105 kilograms = 231.485375 pounds 105 kilograms = 3 703.766 ounces
What is the wavelength for 835.6 MHz?
You didn't specify what kind of wave. Use the relationship: speed = frequency x wavelength.You didn't specify what kind of wave. Use the relationship: speed = frequency x wavelength.You didn't specify what kind of wave. Use the relationship: speed = frequency x wavelength.You didn't specify what kind of wave. Use the relationship: speed = frequency x wavelength.
What is the wavelength of 70000 Hz radio wave?
The wavelength of a radio wave can be calculated using the equation λ = c / f, where λ is the wavelength, c is the speed of light (approximately 3 x 10^8 m/s), and f is the frequency of the wave (70,000 Hz). Plugging in the values, we find that the wavelength of a 70,000 Hz radio wave is approximately 4285.7 meters.
What speed radio wave with frequency 1000Hz?
All radio waves travel at light velocity ( 2.998 * 108 m / s)The relavant equation involved is:Velocity (fixed) = wavelength * frequencySo, with frequency given and velocity fixed, only wavelength remains to find.(2.998 * 108) = wavelength * 1000So:wavelength = (2.998 * 108) / 1000= 2.998 * 105 metres
What is the frequency of a red laser beam with a wavelength of 670 nm?
Frequency = (speed) / (wavelength)Wavelength = 700 nmFor speed of light, use 3 x 108 meters/secFrequency = (3 x 108) / (0.7 10-6) = 4.286 x 1014 Hz = 4.286 x 105 GHz
What is the frequency of green light with a wavelength of 532nm?
Preliminary note: People (including physicists) often describe light and other EM radiation by its wavelength. It's important to note that this is meant to refer to its wavelength in a vacuum. Because the speed of light is lower in any other medium (i.e., in any kind of "stuff") the wavelength is reduced. This effect in miniscule in air, but quite substantial in other things like glass or water. It is frequency that remains fixed as light goes from one medium to another, not wavelength. So, the answer below is to the question "What is the frequency of green light with a vacuum wavelength of 532nm?"Electromagnetic frequency, f, is equal to the speed of light, c, divided by wavelength, l, or f = c/l.In this case, f = (299,792,458 m/s)/(532 nm) = 564 THz, or 564 X 1012 Hz, or 564 X 1012 s-1, where m is meters, s is seconds, nm is nanometers = 10-9 m, Hz is Hertz = s-1, and THz is terahertz = 1012 Hz.
If the period of a certain sine wave is 2.5 ms what is its frequency?
The definiton of period (T) Is T = 1/f ; Therefore if you know that the period is 2.5 microseconds (=2.5 x 10-6) then the frequency is f=1/(2.5x10-6)= 4 x 105 Hz
What is the energy of an electromagnetic wave that has a frequency of 5.0 105 Hz Use the equation E hf where h 6.626 10-34 Js.?
The energy of the electromagnetic wave can be calculated using the formula E = hf, where h is Planck's constant and f is the frequency. Plugging in the values, E = (6.626 x 10^-34 J s) * (5.0 x 10^5 Hz) = 3.313 x 10^-28 J.
What is the electro magnetic spectrum?
Electrical charges in motion produce emission of electromagnetic waves, like radio waves we use for cell phones and radio programs, millimeter waves we use in radars, visible light, X-rays and gamma rays. All the above forms of electromagnetic radiation differs from their frequency, in particular I have listed them in order of increasing frequency (and decreasing wavelength). When a real wave is emitted a set of frequencies are emitted, almost never a single frequency. Under a fundamental point of view this is due to the quantum mechanical indetermination principle. In practical cases, quite more important causes are the fluctuations in the speed of moving charges and the fact that their trajectory is not purely linear. The set of frequencies that forms a practical wave is called electromagnetic spectrum of that wave. The overall frequency axes is divided in zone, as listed below Region Wavelength (Angstroms) Wavelength (centimeters) Frequency (Hz) Energy (eV) Radio > 109 > 10 < 3 x 109 < 10-5 Microwave 109 - 106 10 - 0.01 3 x 109 - 3 x 1012 10-5 - 0.01 Infrared 106 - 7000 0.01 - 7 x 10-5 3 x 1012 - 4.3 x 1014 0.01 - 2 Visible 7000 - 4000 7 x 10-5 - 4 x 10-5 4.3 x 1014 - 7.5 x 1014 2 - 3 Ultraviolet 4000 - 10 4 x 10-5 - 10-7 7.5 x 1014 - 3 x 1017 3 - 103 X-Rays 10 - 0.1 10-7 - 10-9 3 x 1017 - 3 x 1019 103 - 105 Gamma Rays < 0.1 < 10-9 > 3 x 1019 > 105 Sub-zones are also defined. Since the energy of a photon of an electromagnetic wave at a certain frequency f is proportional to the frequency by the equation Energy= h f where h is the Plank constant, higher the frequency, higher the phonons energy as indicated in the table (the energy of one electronvolt eV is the energy aquired by an electron when accelerated by a potential of one volt and it is equal to 1.6×10−19 joule).
From where does Wave 105 broadcast?
Wave 105 is a UK-based radio station. It broadcasts daily from Portsmouth, UK. Portsmouth is a port city on the east side of the coast of England. The station broadcast near to the M27 motorway near Segensworth Road.
What is the frequency of 1150 nanometers of radiation?
Assume that the question is referring to electromagnetic radiation, traveling in vacuum.Speed = 3 x 108 meters/secFrequency = (speed) / (wavelength) = (3 x 108) / (1,150 x 10-9) = 2.6087 x 1014 Hz= 2.609 x 105 GHz (rounded)
What is the wavelength and frequency of photons with and energy of 1.410-21?
Let us use the expression E = h v v is the frequency in Hz So v = E / h E = 1.4 x 10-21 J h = planck's constant = 6.676 x 10-34 Js Plug and solve for v So v = 2112.9 G Hz To have wavelength lambda we have to use the expression lambda = c/v c = the velocity of light in vacuum ie 3 x 108 m/s Plug and solving we get lambda = 1.42 x 10-4 m
What is the mode of 52 55 61 61 76 91 98 105 120?
The Mode average is the most frequent number: number - frequency: 52 - 1 55 - 1 61 - 2 76 - 1 91 - 1 98 - 1 105 - 1 The highest frequency is 2 for the number 61; thus the mode average is 61.
