A solar flare is a sudden, intense eruption of radiation from the sun's surface, primarily occurring in the solar atmosphere and often associated with sunspots. It releases a vast amount of energy across the electromagnetic spectrum, including X-rays and ultraviolet light. In contrast, a solar burst typically refers to a brief emission of radio waves or particles, often linked to solar flares but not as energetic or broad in spectrum. Essentially, solar flares involve more energetic and diverse emissions, while solar bursts are more specific to radio frequencies.
solar flare or solar prominences
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.
The minimum and maximum refers to the number of sunspots.
They are called solar prominences.
solar flares
A solar flare.
The sunspot is spots of the Sun while solar flare is the ray of the Sun
A solar storm is a disturbance in the Earth's magnetosphere caused by solar wind, while a solar flare is a sudden, intense burst of energy on the sun's surface. Solar storms can disrupt Earth's magnetic field, leading to auroras and potential damage to technology like satellites and power grids. Solar flares can also impact technology by causing radio blackouts and interference with communication systems.
The burst of energy from the sun is called a solar flare. These are sudden releases of magnetic energy on the sun's surface that can cause disruptions to technology and communication on Earth.
A sudden explosion near a sunspot is known as a solar flare. This is a burst of energy and radiation released by the Sun that can cause disruptions in the Earth's atmosphere and affect our technology.
it's a big burst of electromagnetic radiation (search it up). It's associated with sunspots.
A brief burst of energy from the sun's photosphere is known as a solar flare. Solar flares are sudden and intense releases of magnetic energy, resulting in high-energy radiation being emitted into space. They can affect Earth's atmosphere and disrupt communication systems and satellite operations.
The difference between a solar flare and a solar prominence is that a solar flare emits charged partials, which travel to the Earth. Solar prominence are large sheets that burst out from the Sun that last for days or even weeks and can grow up to 400000km high. A solar flare affects us by emitting charged partials to the Earth. When the partials hit the Earth the Earth's magnetic field forces them to the North and South poles. As this happens it produces an electrical effect in the Earth's atmosphere that interferes with transmission of radio waves. This is why many communities in the far North lose radio communication for many days at a time.It took my a very long time to figure this out. if you are doing this for a science isu in grade 9 them it is on page 453 on the bottom left of the sun diagram.
A solar flare appears as a sudden and intense brightening on the Sun's surface. It can release a burst of energy and radiation into space. Solar flares are often accompanied by coronal mass ejections (CMEs) and can impact Earth's magnetic field.
This is known as a solar flare, where a sudden release of magnetic energy from the Sun's surface results in a burst of radiation. Solar flares can affect satellites, communication systems, and power grids on Earth. Additionally, they can create stunning displays of auroras in the sky near the poles.
The temperature of a solar flare varies between 10 and 20 million degrees Kelvin.
Graeme King wrote solar flare in 2009