Which do solar flares and coronal mass ejections have in common? Select the two correct responses.
The two correct responses are:
1. Both solar flares and coronal mass ejections are produced by intense magnetic activity on the Sun.
2. Both solar flares and coronal mass ejections can release a large amount of energy, including electromagnetic radiation and energetic particles, into space.
Which set of terms describes a realistic cause-effect relationship between solar weather and Earth's magnetosphere? Select the two correct answers.
Solar flares and coronal mass ejections have the following things in common:
1. Both solar flares and coronal mass ejections are triggered by the release of magnetic energy from the Sun's corona.
2. Both solar flares and coronal mass ejections can cause disturbances in Earth's space environment, known as space weather, which can affect satellite communications, power grids, and navigation systems.
To determine which two responses are correct, we need to understand the similarities between solar flares and coronal mass ejections (CMEs). Let's break it down:
1. Both are solar phenomena: Solar flares and CMEs are events that occur on the Sun. They are related to the Sun's magnetic field and the release of energy.
2. Both involve bursts of energy: Solar flares and CMEs involve the rapid release of energy from the Sun. This energy is often released in the form of electromagnetic radiation and particles.
3. Both can cause geomagnetic disturbances on Earth: When solar flares and CMEs reach Earth, they can interact with our planet's magnetic field. This interaction can lead to geomagnetic storms, affecting satellite and communication systems, as well as creating colorful auroras in the polar regions.
With this information, we can now identify the two correct responses:
A. Both are solar phenomena
C. Both can cause geomagnetic disturbances on Earth