If a flame on the candle burns red , how does energy of that flame compare to that of the Bunsen burner flame ? and why ?

ans:The Bunsen burner flame has higher temperature than candle’s flame . Because flame of candle emit red ,and red has the least energy in visible light.

That sounds pretty good to me.

To determine the relative energy of a candle flame and a Bunsen burner flame, we need to consider the color of the flames and the wavelengths of light they emit.

First, let's understand the relationship between color and energy. Different colors of light have different wavelengths, and shorter wavelengths correspond to higher energy. For visible light, violet light has the shortest wavelength and highest energy, while red light has the longest wavelength and lowest energy.

Now, let's consider the two flames. The fact that the flame on the candle appears red indicates that it is emitting light in the red part of the spectrum. Since red light has the lowest energy in visible light, it suggests that the candle flame has relatively low energy compared to other flames.

On the other hand, the Bunsen burner flame typically emits a blue color. Blue light has a shorter wavelength and higher energy than red light. Therefore, the Bunsen burner flame is emitting light with higher energy than the candle flame.

In conclusion, the Bunsen burner flame has higher temperature and energy compared to the candle flame because it emits light in the blue part of the spectrum, which has a higher energy level than red light emitted by the candle flame.