no.
Jupiter and its moons get light from the same source we do: the sun.
The luminous light source in the solar system that illuminates Jupiter's moons, including when light bounces off them, is the Sun. Jupiter and its moons receive sunlight, which provides the illumination observed from Earth.
The primary source of light that enables astronomers to see Jupiter through a telescope is sunlight reflecting off the planet's surface and atmosphere. Jupiter also emits its own light, known as intrinsic radiation, which contributes to its visibility in the night sky.
Yes. There is energy eberywhere. Jupiter gets light from the sun and produces light in its aurorae. There is thermal energy as it is not absolute zero, and there is kinetic energy from Jupiter's winds.
Jupiter itself does not emit light, so it can be considered dark. However, it reflects light from the Sun, so it can appear bright in the sky.
Jupiter and its moons get light from the same source we do: the sun.
Jupiter does not have light other than the lighting thunderstorms which give off the light.
The luminous light source in the solar system that illuminates Jupiter's moons, including when light bounces off them, is the Sun. Jupiter and its moons receive sunlight, which provides the illumination observed from Earth.
Jupiter does not produce its own light, but it reflects light from the sun. Due to its distance from the sun, Jupiter appears as a bright object in the night sky when viewed from Earth. It is not a source of light itself.
The primary source of light that enables astronomers to see Jupiter through a telescope is sunlight reflecting off the planet's surface and atmosphere. Jupiter also emits its own light, known as intrinsic radiation, which contributes to its visibility in the night sky.
It is not possible to light a fire on Jupiter because there is no oxygen in its atmosphere, which is necessary for combustion. Jupiter is comprised mainly of hydrogen and helium gas.
ANSWER: It reflects light. The sun is the only body in the solar system to emit light.
It shines directly on both Jupiter and its moons. There is no reason it shouldn't, as, other than periodic eclipses from Jupiter, nothing blocks the sunlight from reaching those moons. The moons do get some reflected light from Jupiter as well, just as Earth gets some light from our moon.
Jupiter is approximately 32.6 light minutes away from Earth on average.
Jupiter is about 40 to 52 light minutes away from Earth, depending on their positions in their respective orbits around the Sun. This means that it takes light approximately 40 to 52 minutes to travel from Jupiter to Earth.
Jupiter and the sun are both composed mostly of hydrogen and helium, and both emit their own light and radiation. However, Jupiter is a gas giant planet, while the sun is a star. Jupiter does not have enough mass to sustain nuclear fusion in its core like the sun does.
Yes. There is energy eberywhere. Jupiter gets light from the sun and produces light in its aurorae. There is thermal energy as it is not absolute zero, and there is kinetic energy from Jupiter's winds.