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Press the Blue Candle's flame.
touch the actuall flame on the blue candle
Press the actual blue candle flame
Barium chloride, or any other barium salt, should burn with a green flame. When a barium salt is burned, the thermal energy is transferred to the outer electrons of the barium ions. They gain enough energy to excite them to a higher energy level. They then drop back to their ground state, releasing energy. This energy corresponds to a wavelength of light, which is emitted from the ion. This wavelength corresponds to green light, hence the green flame observed.
Lithium nitrate and lithium chloride flame tests produce the same color because it is the lithium electrons that are raised to a higher energy level and then drop back down to their ground state. Any ionic compound containing lithium will give the same results. Flame tests are used to show the color and spectrum of the element as its electrons are raised to a higher energy level and then fall back to their ground state.
Particle diffusion states that the distribution of heat is smooth and relative to it's state. The highest level of combustion is in the bottom, the largest (widest) part of the candle flame. The process moves upward, lessening in activity till there is none, forming the tip you see. For it to be any other shape there would have to be outside elements that influence the process and distribution.
Quilava lerns flame wheel at level 17 or level 21
Each period corresponds to the number of shells (energy levels) contained in the atom.
cv 16
The heat of the flame gives off energy to the ions. This results in electrons jumping out of their ground state and into their excited state. From a lower subatomic level to a higher one. When the electrons fall back down, the give off a color.
No. Generally, one instruction in a high level language corresponds to many instructions in machine language.