An eruption on the sun's surface is a solar flare, which is a sudden and intense release of energy and radiation. Solar flares can create disturbances in Earth's magnetic field and affect communication systems and power grids.
Well there more than two, but examples include an asteroid impact and a volcanic eruption. Both have a history of spewing tons of ash dirt and debris into the air, reflecting the Suns rays, diminishing heat, in consequence affecting the Earths climate.
The eruption of Mount Pinatubo in 1991 released vast amounts of volcanic ash and sulfur dioxide into the stratosphere, forming aerosols that reflected sunlight. This phenomenon led to a temporary cooling effect on the Earth's surface by reducing the amount of solar radiation reaching the ground. The resulting slight drop in global temperatures was most pronounced in the years immediately following the eruption, highlighting the significant impact of volcanic activity on climate.
The transit of the Moon between the Earth and the Sun, an event called a solar eclipse, will block solar radiation, but will not affect the climate.A natural event that will block solar radiation and have a short-term cooling effect on the climate (by reflecting the sun's heat) is a volcanic eruption. Clouds of dust and ash can float around the world for some days causing a cooling effect.
Volcanoes can cause a slight warming effect because of their carbon dioxide emissions, and a somewhat greater, but short-term, cooling effect due to particulate emissions. Apart from the short-term cooling effect, volcanoes are not considered to have a significant effect on temperatures, compared to the effect from human activities.
Overall cooling of Earth's climate is associated with factors such as decreased solar activity, increased volcanic activity, and changes in the Earth's orbit or axial tilt that affect the amount of solar radiation reaching the planet. Other factors like aerosol emissions, atmospheric circulation patterns, and ocean currents can also play a role in cooling the climate.
Volcanic activity is known to occur on Earth, Mars, Venus, and Io, a moon of Jupiter. These locations have evidence of active volcanoes or past volcanic activity.
io, venus and earth
An eruption on the sun's surface is a solar flare, which is a sudden and intense release of energy and radiation. Solar flares can create disturbances in Earth's magnetic field and affect communication systems and power grids.
sets people on fire.
AnswerThere is extensive evidence of past volcanic activity on Mars in the form of extinct volcanoes, the most famous of which is Olympus Mons, the highest known mountain in the Solar System. However, there is no current volcanic activity on Mars and it is apparent that Mars has undergone a cooling process, leading to all volcanic activity ceasing.There is extensive evidence of past volcanic activity on Mars in the form of extinct volcanoes, the most famous of which is Olympus Mons, the highest known mountain in the Solar System. However, there is no current volcanic activity on Mars and it is apparent that Mars has undergone a cooling process, leading to all volcanic activity ceasing. Yes there are volcanos on mars
Some rocks are younger then the formation of the solar system because of changes caused by volcanic activity
Mars, Earth and Venus, certainly; the tallest volcano in the solar system is on Mars. And Jupiter's moon Io may be the most active body in the solar system when it comes to volcanoes; some of the eruptions go into space!
Well there more than two, but examples include an asteroid impact and a volcanic eruption. Both have a history of spewing tons of ash dirt and debris into the air, reflecting the Suns rays, diminishing heat, in consequence affecting the Earths climate.
It blocks (some of) it from reaching the surface of the Earth.
it doesn't because solar energy is a renewable resource
Io is the most geologically active object in the Solar System, it has over 400 active volcanoes. So, the answer would be volcanic activity.