Gamma rays have a higher frequency.
Generally speaking, it is gamma rays that have a higher frequency (and energy) than X-rays. The upper end of the X-ray spectrum and the lower end of the gamma ray spectrum enjoy a bit of overlap, but the X-ray does not have a higher frequency than the gamma ray.
The frequency of a gamma ray is typically in the range of 10 exahertz (10^18 Hz) or higher. Gamma rays have the shortest wavelength and highest frequency among the different types of electromagnetic radiation.
Yes, gamma rays have a higher frequency than ultraviolet rays. Gamma rays have the shortest wavelengths and the highest frequencies in the electromagnetic spectrum. Ultraviolet rays have longer wavelengths and lower frequencies compared to gamma rays.
Yes, the intensity of X-rays and gamma rays can differ. Gamma rays typically have higher frequencies and energies than X-rays, so they can be more penetrating and have a higher intensity. However, the actual intensity of these radiation types depends on factors such as the source strength and distance from the source.
A gamma ray has a higher amplitude than a radio wave. Gamma rays have shorter wavelengths and higher frequencies compared to radio waves, resulting in higher energy and therefore higher amplitudes.
Generally speaking, it is gamma rays that have a higher frequency (and energy) than X-rays. The upper end of the X-ray spectrum and the lower end of the gamma ray spectrum enjoy a bit of overlap, but the X-ray does not have a higher frequency than the gamma ray.
The frequency of a gamma ray is typically in the range of 10 exahertz (10^18 Hz) or higher. Gamma rays have the shortest wavelength and highest frequency among the different types of electromagnetic radiation.
An X-ray is a high frequency (high energy) electromagnetic wave. It is much higher in frequency than any broadcast wave. The only electromagnetic radiation with higher frequency (shorter wavelength) than the X-ray is the gamma ray.
Gamma ray photons have a higher frequency (and therefore carry more energy) than X-ray photons.
Gamma rays have a higher frequency than visible light. Gamma rays are a form of electromagnetic radiation with the highest frequency and energy in the electromagnetic spectrum, while visible light falls in the middle range of the spectrum.
Yes, gamma rays have a higher frequency than ultraviolet rays. Gamma rays have the shortest wavelengths and the highest frequencies in the electromagnetic spectrum. Ultraviolet rays have longer wavelengths and lower frequencies compared to gamma rays.
An X-ray is a high frequency (high energy) electromagnetic wave. It is much higher in frequency than any broadcast wave. The only electromagnetic radiation with higher frequency (shorter wavelength) than the X-ray is the gamma ray.
Yes, the intensity of X-rays and gamma rays can differ. Gamma rays typically have higher frequencies and energies than X-rays, so they can be more penetrating and have a higher intensity. However, the actual intensity of these radiation types depends on factors such as the source strength and distance from the source.
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The correct order is c) Alpha particle, beta particle, gamma ray. Alpha particles have the greatest mass, followed by beta particles, and then gamma rays which have no mass.
Radio waves have the lowest frequency in all of the electromagnetic spectrum. The next higher frequency energy is microwave, visible light including ultraviolet, infrared, X-ray, then gamma ray
Gamma ray bursts emitting light! What is meant by this? Any way gamma ray coming out of a radioactive nucleus is also an electromagnetic radiation as light but with very much higher frequency. Gamma ray also travels with the same speed as light does. According to Einstein's theory of relativity, no radiation can travel with a velocity higher than that of light