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68658
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I was just wondering if, through all the fusion test done over the years, if anybody has ever mesaured the lux given off dureing a reaction?
Ok so a build a highly effeicent fusion reactor
"The other end" is unimportant. We can use 19th century technology to extract energy from the reactor if we ever get one that breaks even.68658 said:I agree that the reactor needs to be designed to be as eefient as possible at sustaining fusion at the lowest amount of input power. Yet what about the other end, the out put in over simplicated terms
Volts is not energy and you can't multiply energy with a transformer: conservation of energy applies. You are misunderstanding how basic electronic components work.is it not possible through the use of electrical deffices to jump a set of batteries voltages up to megavolts of energy, hence lessing the input power before jumping it up to the megawatts of power I am discussing useing.
The light intensity in a fusion reactor is typically measured using a device called a photometer. This device measures the amount of light emitted from the reactor by converting it into an electrical signal, which can then be quantified and compared to known standards.
The light intensity in a fusion reactor can be influenced by several factors, including the temperature and pressure of the plasma, the type of fuel being used, and the efficiency of the reactor's magnetic confinement system. Additionally, the design and materials of the reactor itself can also impact the light intensity.
Yes, the light intensity in a fusion reactor can be controlled to a certain extent. Scientists can adjust various parameters such as the temperature, pressure, and fuel composition to regulate the amount of light emitted. However, there are also natural fluctuations in light intensity that are difficult to control.
Measuring light intensity in a fusion reactor is crucial for understanding the performance and efficiency of the reactor. The level of light emitted is directly related to the amount of energy being produced, so accurate measurements can help scientists optimize the fusion process and improve reactor designs.
Yes, there are several challenges in accurately measuring light intensity in a fusion reactor. The intense heat and radiation produced in the reactor can damage or interfere with measurement devices, making it difficult to obtain precise readings. Additionally, the complex and dynamic nature of fusion reactions can also make it challenging to interpret and analyze the data obtained from light intensity measurements.