Question

The local newspaper has published the passage below.

Last week, scientists released incredible images of aurora australis, known as the northern lights, as seen from the Hubble telescope. The Hubble telescope was placed in orbit in 1990 by the space shuttle and has since delivered the sharpest images we have of our planet, our galaxy, and the universe. The images delivered last week show the beautiful display of lights in the southern hemisphere. These lights are the result of the solar activity known as solar wind. Traces of solar wind reach well beyond Earth and have been detected as far as Saturn.

Which statement in the news passage above is inaccurate?

The aurora australis cannot be seen from space.
The Hubble telescope does not orbit our planet.
The aurora australis is known as the northern lights.
Solar winds do not reach well beyond our planet.

Answer 1

Answer:

the first one,the aurora australis cannot be seen from space.is inaccurate

Explanation:

hope it's helpful

Answer 2

Inaccurate statement is :- Solar winds do not reach well beyond our planet.

Explanation:

• The solar radiation is formed by the outward growth of plasma (a assortment of charged particles) from the Sun's corona (outermost atmosphere). This plasma is consistently heated to such an extent that the Sun's gravity cannot stop it. It then travels on the Sun's field of force lines that are radially extended outward. because the Sun rotates (once each twenty seven days), it spins its field of force lines over its polar regions in an exceedingly giant rotating spiral, making a continuing stream of "wind".

• Such emissions, or streamers, are thought to return from giant bright patches known as "coronal holes" within the Sun's corona, as seen within the image on top of. The field of force lines of those chaplet holes extend outward, their ends force in by the solar radiation. They unfold up to now that they produce an celestial body field of force (IMF), that surrounds all the planets in our star system!

• On the surface of the Sun's active place regions (dark regions caused by magnetic disturbances) or on top of the photospheric layer, loops of field of force lines entice a number of the plasma and hold it back.