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Which instrument type would be most beneficial to the responder when entering a field of radiation?
A Geiger counter would be the most beneficial instrument to use when entering a field of radiation. It can detect and measure the levels of radiation present in the environment, providing crucial information to ensure safety.
How does a decrease in velocity affect the frequency and wavelength of the waves entering the shallow water?
A decrease in velocity of the waves will cause a decrease in frequency and a decrease in wavelength as the waves enter shallow water. This is due to the relationship between velocity, frequency, and wavelength which is defined by the equation: velocity = frequency x wavelength.
When white light is incident on a prism which one of the resulting color components will have the lowest index of refraction A. Green B. Blue C. Orange D. Yellow?
B. Blue. Blue light has a shorter wavelength compared to green, orange, and yellow light, which results in it experiencing greater deviation upon entering a prism due to its higher refractive index.
How are frequency wavelength and color interdependent on each other?
Each colour has different wavelengths....For example: In VIBGYOR It is in the order of increasing wavelength i.e Compared to red violet is having the shorter wavelength..... The frequency and wavelength are related by the equation: In vaccum: frequency= c/wavelengthwherec is the velocity of light in free spaceWhereas in any medium,frequency= Velocity of light in that medium/wavelength So, it is clear from the formula that the wavelength and frequency are inversely proportional to each other.... As the wavelength changes with colour the frequency also changes according to that.............. If the frequency is high, the wavelength will be low and viceversa....
Why do different wavelengths refract differently when entering glass?
Different wavelengths of light refract differently when entering glass because they interact differently with the glass's molecules. Each wavelength corresponds to a different frequency and energy level, which affects how the light is absorbed and re-emitted by the glass, causing variations in refraction. This phenomenon is known as dispersion.
Entering the body of water that separates Japan from Asia?
tyboka sea
What are the components of blood upon entering the kidney and urine?
it will go outside
Which instrument type would be most beneficial to the responder when entering a field of radiation?
A Geiger counter would be the most beneficial instrument to use when entering a field of radiation. It can detect and measure the levels of radiation present in the environment, providing crucial information to ensure safety.
How does a decrease in velocity affect the frequency and wavelength of the waves entering the shallow water?
A decrease in velocity of the waves will cause a decrease in frequency and a decrease in wavelength as the waves enter shallow water. This is due to the relationship between velocity, frequency, and wavelength which is defined by the equation: velocity = frequency x wavelength.
When light enters a prism how many colors does it split into?
If the light entering the prism is white, the correct answer is "all of them".Roy G. Biv is a mnemonic device for remembering the order of the colors of the visible light spectrum from longest wavelength / lowest frequency to shortest wavelength / highest frequency. The letters stand for red, orange, yellow, green, blue, indigo, violet. However, each of those seven colors is actually a group of colors which theoretically can be infinitely subdivided. For example, green light with a wavelength of 500 nm is a SLIGHTLY different color than green light with a wavelength of 500.00001 nm.If the light entering the prism is monochromatic, the color of the light exiting the prism will be the same as the color of the light entering it.
What separates the external auditory meatus and middle ear?
The tympanic membrane (eardrum) separates the external auditory meatus (ear canal) from the middle ear. It vibrates in response to sound waves entering the ear canal and transmits these vibrations to the middle ear ossicles.
When white light is incident on a prism which one of the resulting color components will have the lowest index of refraction A. Green B. Blue C. Orange D. Yellow?
B. Blue. Blue light has a shorter wavelength compared to green, orange, and yellow light, which results in it experiencing greater deviation upon entering a prism due to its higher refractive index.
What key should I press on a keyboard if I am inputting data on my computer?
Traditionally, if you are entering data, you would press the Enter or Return key after you finish typing a line. When entering data on the Web, you usually would click Okay or Submit when you finish filling a form.
How are frequency wavelength and color interdependent on each other?
Each colour has different wavelengths....For example: In VIBGYOR It is in the order of increasing wavelength i.e Compared to red violet is having the shorter wavelength..... The frequency and wavelength are related by the equation: In vaccum: frequency= c/wavelengthwherec is the velocity of light in free spaceWhereas in any medium,frequency= Velocity of light in that medium/wavelength So, it is clear from the formula that the wavelength and frequency are inversely proportional to each other.... As the wavelength changes with colour the frequency also changes according to that.............. If the frequency is high, the wavelength will be low and viceversa....
Why ground wire be connected to the metal support rod for television antena?
To prevent electrical charges generated by lighting from entering the home which can cause fire and damage components.
Why do different wavelengths refract differently when entering glass?
Different wavelengths of light refract differently when entering glass because they interact differently with the glass's molecules. Each wavelength corresponds to a different frequency and energy level, which affects how the light is absorbed and re-emitted by the glass, causing variations in refraction. This phenomenon is known as dispersion.
How does deflection physics explain the behavior of light when it passes through different mediums?
Deflection physics explains how light changes direction when passing through different mediums due to the change in speed and wavelength of light. This phenomenon is known as refraction, where light bends towards the normal when entering a denser medium and away from the normal when entering a less dense medium.
