The wavelength range for infrared radiation is 10^-5 m, while that of ultraviolet radiation is 10^-8 m. which type of radiation has more energy and why? a.) ultraviolet because it has a higher frequencyb.) ultraviolet because it has a longer wavelengthc.) infrared because it has a lower frequencyd.) infrared because it has a shorter wavelength.
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Ответ:
A,
Explanation:
To solve the exercise it is necessary to use the concepts and definitions given for electromagnetic energy, in which
Where,
h = Plank's constant![(6.626*10^{-34}J.s)](/tpl/images/0391/9012/99e32.png)
c = Speed of light![(3*10^8m/s)](/tpl/images/0391/9012/27a53.png)
If we analyze these characteristics both h and c are constant so the energy is inversely proportional to the size of the wave.
The larger the amplitude of the wave, the smaller the energy.
On the other hand we have the frequency value defined as
In this case the frequency is also inversely proportional to the wavelength.
In this case, the amplitude of the largest wave is infrared, so it will have less energy and less frequency. The fact that it has a low frequency by the wavelength, also generates that it has a low energy. But not because it has a large wavelength, on the contrary, because its wavelength is small.
In the case of the ultraviolet wave it will have greater frequency and greater energy. Therefore of all the options, A is the only one valid.
Ответ:
Horizontal component of the velocity when the opposing player fields the ball = 11.00 m/s
Explanation:
The velocity of a body in 2 dimension can be resolved in to 2 parts, horizontal and vertical component. In the case of free falling or projectile body the horizontal component remains the same but vertical component is affected by acceleration due to gravity.
In this case Initial velocity = 17.6 m/s
Angle between horizontal axis and direction of velocity = 51.3 °
We know that horizontal component = v cos θ
Vertical component = v sin θ
Since the horizontal component remains the same, it is unchanged when the opposing player fields the ball.
So horizontal component of the velocity = v cos θ = 17.6 * cos 51.3 °
= 11.00 m/s