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What is 5.9736 x 10 to the 24th power?
5.9736 x 10^24 is scientific notation for 5.9736 multiplied by 10 raised to the power of 24. This can be calculated by moving the decimal point 24 places to the right, resulting in a very large number, which is approximately 5.9736 followed by 24 zeros. This number represents the mass of the Earth in kilograms when expressed in scientific notation.
A - 24 = -24?
A - 24 = -24 A - 24 + 24 = -24 + 24 A - 0 = 0 A = 0
24 plus 24 plus 24 plus 24 equals?
24 + 24 + 24 + 24 = 24 x 4 = 96
What is 24 plus 24 plus 23 plus 24?
24 + 24 + 23 + 24 = 95
What is the answer to 24 plus 24?
24 + 24= 48
What is the frequency of a wave moving at 24 ms with a wavelength of 3 m?
8Hz
What is the frequency of a wave moving at 24ms with a wavelength of 3m?
The frequency of a wave can be calculated using the formula: frequency = wave speed / wavelength. Plugging in the values given, we get: frequency = 24 m/s / 3 m = 8 Hz.
What is the frequency of a wave moving at 24 m s with a wavelength of 3 m?
frequency [Hz] = velocity[m/s] / wavelength [m] frequency [Hz] = 24 [m/s] / 3 [m] frequency = 8 [Hz]
What is the frequency of a wave moving at 24 ms with a wavelength of 3m?
Frequency = 24 ms-1/3 m = 8 s-1 or 8 Hertz.
What is the frequency of a wave at 24 ms with a wavelength of 3 m?
8Hz
What is the speed of a wave that is 8 meters and a frequency of 3 Hz?
The speed of a wave can be calculated using the formula: speed = frequency × wavelength. Given a frequency of 3 Hz and a wavelength of 8 meters, the speed of the wave would be 24 meters per second.
What is the speed of a wave that has a frequency of 12 Hz and a wavelength of 2 meters?
Speed = (frequency) x (wavelength) = (12 per sec) x (2 meters) = 24 m/sec
If a wave has a frequency of 6.9536 x 109 Hz and an energy of 4.6076 x 10-24 J what is its wavelength?
Depends on what it is a wave of. Electromagnetic probably. Wavelength is always velocity (in this case of light) divided by frequency. Waves carry energy per second per area, not just energy.
A periodic longitudinal wave that has a frequency of 24.0 Hz travels along a coil spring. If the distance between successive compression is 0.485 What is the speed of the wave?
The wave speed can be calculated using the formula v = frequency x wavelength. Given the frequency of 24.0 Hz and the distance between successive compressions (wavelength) of 0.485 m, the wave speed can be calculated as v = 24.0 Hz x 0.485 m = 11.64 m/s.
How is the energy of a photon related to its frequency and wavelength?
wavelength : wavelength is the distance from crest of one wave to the crest of next frequency : the number of waves that passes a given point in one second energy : the amplitude or intensity of a wave energy and frequency is directly proportional to each other when energy is high frequency is also high wavelength and frequency or energy is inversly proportional to each other when wavelength is high frequency or energy is low
What wave has the highest frequency of electromagnetic waves?
In any set of different wavelengths, the wave which has the shortest wavelength is the wave which has the highest frequency.This is true is because any wave's frequency and wavelength are directly related by the speed at which the wave travels along: its 'speed of propogation'.The relevant formula is wavelength x frequency = speed of propogation.More informationA radio wave is an electromagnetic wave. It's a form of electromagnetic radiation.The term "radio" is the name given to a part of the spectrum of electromagnetic waves that is used for radio and television broadcasting, mobile phones, terrestrial and satellite wireless communications networks, etc.The whole wide spectrum of electromagnetic waves has frequencies (and wavelengths) ranging from "audio" to "radio" to "infrared" to "visual light" to "X-Rays", and beyond to "gamma rays" at the very top end of the spectrum.Frequency and wavelength are directly related by the speed at which the wave travels: its "speed of propogation".The relevant formula is wavelength x frequency = speed of propogation.The speed of propogation of electromagnetic waves travelling through space is approximately 186,000 miles per second. (About 300,000 kilometers per second.)
What is the energy of an electromagnetic wave with a frequency of 3 x 109 Hz?
The energy of an electromagnetic wave is directly proportional to its frequency. Using the equation E = hf, where E is energy, h is Planck's constant (6.63 x 10^-34 J*s), and f is frequency (3 x 10^9 Hz), you can calculate the energy of the wave to be 1.99 x 10^-24 J.
