its is murcery
neptune
The colors of the spectrum going from lowest energy to highest energy are violet, indigo, blue, green, yellow, orange, and red.
Blue light is of a higher energy than red light. That means that the fire with the blue light is hotter, as the fire must generally be hotter to generate the blue light. For example, in a gas flame, the blue, which is hottest, is in the middle, and any yellow, orange or red is around the outside.
Plants generally grow better when exposed to blue light compared to green light. This is because blue light is more effectively absorbed by chlorophyll, the pigment responsible for photosynthesis, promoting energy production and growth. Green light is mostly reflected by plants, which is why they appear green, and is less effective in driving the photosynthetic process. Therefore, blue light provides more energy for photosynthesis, leading to better growth outcomes.
plants are the main producer of any ecosystem. they directly obsorbed the energy from the sun and than chnge it into the energy that can be used by the others mean reducers
Difference is the excitation and ionization energy of atoms in the flame, likely fuel atoms, such as propane, and atmospheric atoms, such as oxygen, argon, hydrogen, nitrogen, etc. In the blue flame, the energy released by the atoms in the flame is more energetic. This is because blue light is of higher energy than red light. Blue light is lower wavelength, higher frequency, and higher energy than red light. The reverse is true in the red flame, the atoms are not releasing as much energy because red light is of lower energy. When an atom enters the flame, it absorbs energy thus exciting electrons to higher energy levels (higher than ground state). At this point, the excited atom can simply release this energy as visible or non visible light--and often relax by non-radiative means. Or the atom can lose an electron because the energy absorbed was so high and continue to excite other electrons to other levels and possibly remove a second or third electrons if the flame was energetic enough. In a flame, usually only first ionization and excitation occur. After these electrons are excited to whatever level, they have to release energy. Often, these atoms release this energy, if the energy level correlates, in the form of visible light. Other times, the light is released in non-visible portions of the electromagnetic spectrum. The light emitted from a flame is a measure of the energy available in the flame. With a given gas etc. distributions of atoms in excited states can be calculated, after spectra are collected, with the Boltzman equation and for ionization calculations one can use the Saha equation.
Neptune
Neptune is a deep blue gas planet that emits more energy than it receives from the Sun. This excess energy is thought to be generated from the planet's internal heat sources, such as leftover heat from its formation and gravitational energy from its moons.
Planet Earth is called the blue planet because when viewed from space, its oceans and atmosphere make it appear predominantly blue in color. The reflection of sunlight off the water gives Earth its distinct blue hue when seen from afar.
Earth is called the blue planet because when viewed from space, it appears predominantly blue due to its oceans that cover over 70% of its surface. The reflection of sunlight off the water gives Earth its distinct blue appearance.
There is no planet called the white planet. The closest could be Saturn with it's great white spot.
There are three in our solar system which are blu or bluish. the most blue is Neptune because of the methane absorbing the red light. Uranus in more of a Cyan in colour and Earth is a mixture of blue, green and white.
Planet Blue was created in 2002.
Earth is often referred to as the "Blue Planet" due to its abundant water, which covers about 71% of its surface. The reflection of sunlight off the oceans gives the planet its distinctive blue appearance when seen from space. Additionally, the presence of water is crucial for sustaining life, making Earth unique in the solar system.
Earth is the "blue planet" because of the blue oceans. Oceans cover 75% of the Earth's surface.
The duration of The Blue Planet is 3000.0 seconds.
The Earth is Blue or the bio planet. The Earth is known as Blue planet because most of its surface is covered with water.
The Blue Planet ended on 2001-10-31.