you can't answer this question with out knowing the power of both lasers. If you had two lasers, one yellow the other UV, BOTH WITH IDENTICAL POWER, the yellow laser would APPEAR to be more powerful since our eyes are particularly tuned to see this color. The UV laser would APPEAR to be invisible (i.e. no power) because our eyes cannot see UV light.
Keep in mind that one only appears to be more powerful because of the way our eyes work, in reality they both have the same power.
Not necessarily. The power of a laser is determined by factors such as its energy output and intensity, rather than its color. Yellow and ultraviolet lasers can have different applications and strengths depending on their specific properties and how they are utilized.
I don't think there is any fixed limit as to how powerful they can make them. Of course, more powerful lasers will require a larger energy input, so that may be a limitation.
Semiconductor lasers use a semiconductor material as the gain medium, typically a diode, and are more compact, efficient, and cost-effective. Gas lasers, on the other hand, use a gas mixture as the gain medium and are generally larger, more powerful, and more complex, making them suitable for high-power applications such as cutting and welding.
No, 5mW green lasers are generally not powerful enough to burn objects or cause damage. They are considered low-power lasers and are typically used for pointing, alignment, or in presentations. If you need a laser for burning, you would need a much more powerful laser, such as a high-powered handheld laser or a laser cutter.
Yes, lasers can produce heat as they typically generate intense beams of focused light energy. This light energy can be absorbed by a surface, resulting in heating of the material. This property is often utilized in various laser applications, such as cutting and welding.
Lasers have evolved over time in terms of increased power and precision, allowing for applications in various fields such as medicine, communication, and manufacturing. Advances in technology have led to the development of new types of lasers, such as fiber lasers and diode lasers, which are more efficient and versatile. Additionally, the miniaturization of lasers has enabled their integration into devices such as smartphones and laptops.
well some lasers can burn and some cannot. and some that cannot are more powerful than others
Diamonds are used in various scientific and technological applications due to their unique properties, such as high thermal conductivity and hardness. They are used in cutting tools, heat sinks for electronics, and as optical components in lasers and sensors. In research, diamonds are also used as anvils in high-pressure experiments and as a material for quantum computing.
DPSS (Diode-Pumped Solid-State) lasers are more efficient that normal lasers. They are primarily used in laser pointers, with the green laser being the stongest and yellow the weakest.
Yes, lasers can produce heat as they typically generate intense beams of focused light energy. This light energy can be absorbed by a surface, resulting in heating of the material. This property is often utilized in various laser applications, such as cutting and welding.
I don't think there is any fixed limit as to how powerful they can make them. Of course, more powerful lasers will require a larger energy input, so that may be a limitation.
The difference is that the black on is more powerful then the yellow.
Optical lasers, also known as laser optics, are beams of light that come in many different strengths and possible uses. Modern computer mice use lasers to detect movement. Video game systems and DVD players use lasers to access discs. More powerful lasers are used for surgery and in laboratories as tools for experiments.
Burning lasers create more heat than normal lasers. Strictly speaking, Laser include burning laser. Burning lasers are powerful laser pointers like 300mW or above, they can burn objects like paper and tapes.
7. What is output power?The output power is related to the produced power of the laser beam, which is usually stated in milliwatt (mW). The milliwatt is a unit of power, which is one one-thousand of a watt. Higher power lasers are always more powerful than lower power lasers
If you mean the spies, they sre in the attic room above the yellow lasers, in the docks, and in the greenhouse on the rooftops. Sorry I cant be more speific!
they will be more Dangerous
Ultraviolet radiation has greater energy than infrared radiation. Ultraviolet radiation has shorter wavelengths and higher frequencies, while infrared radiation has longer wavelengths and lower frequencies.