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Sentence completion: Practice Test - 12 Notes | Study Reading for Academic IELTS - IELTS

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Directions: Analyse the given passage carefully!

Mysterious Dark Matter
Mysterious Dark Matter May Not Always Have Been Dark

Dark matter particles may have interacted extensively with normal matter long ago when the universe was very hot, a new study suggests. The nature of dark matter is currently one of the greatest mysteries in science. The invisible substance — which is detectable via its gravitational influence on "normal" matter - is thought to make up five-sixths of all matter in the universe.
Astronomers began suspecting the existence of dark matter when they noticed the cosmos seemed to possess more mass than stars could account for. For example, stars circle the center of the Milky Way so fast that they should overcome the gravitational pull of the galaxy's core and zoom into the intergalactic void. Most scientists think dark matter provides the gravity that helps hold these stars back. Astronomers know more about what dark matter is not than what it actually is.Scientists have mostly ruled out all known ordinary materials as candidates for dark matter. The consensus so far is that this missing mass is made up of new species of particles that interact only very weakly with ordinary matter. One potential clue about the nature of dark matter has to do with the fact that it's five times more abundant than normal matter, researchers said.
"This may seem a lot, and it is, but if the dark and ordinary matter were generated in a completely independent way, then this number is puzzling," said study co-author Pavlos Vranas, a particle physicist at Lawrence Livermore National Laboratory in Livermore, California. "Instead of five, it could have been a million or a billion. Why five?" The researchers suggest a possible solution to this puzzle: Dark matter particles once interacted often with normal matter, even though they barely do so now. "This may have happened in the early universe when the temperature was very high — so high that both ordinary and dark matter were 'melted' in a plasma state made up of their ingredients".
The protons and neutrons making up atomic nuclei are themselves each made up of a trio of particles known as quarks. The researchers suggest the dark matter is also made of a composite "stealth" particle, which is composed of a quartet of component particles and is difficult to detect (like a stealth airplane). The scientists' supercomputer simulations suggest these composite particles may have masses ranging up to more than 200 billion electron-volts, which is about 213 times a proton's mass. Quarks each possess fractional electrical charges of positive or negative one-third or two-thirds. In protons, these add up to a positive charge, while in neutrons, the result is a neutral charge. Quarks are confined within protons and neutrons by the so-called "strong interaction."
The researchers suggest that the component particles making up stealth dark matter particles each have a fractional charge of positive or negative one-half, held together by a "dark form" of the strong interaction. Stealth dark matter particles themselves would only have a neutral charge, leading them to interact very weakly at best with ordinary matter, light, electric fields, and magnetic fields. The researchers suggest that at the extremely high temperatures seen in the newborn universe, the electrically charged components of stealth dark matter particles could have interacted with ordinary matter. However, once the universe cooled, a new, powerful and as yet unknown force might have bound these component particles together tightly to form electrically neutral composites. Stealth dark matter particles should be stable — not decaying over eons, if at all, much like protons. However, the researchers suggest the components making up stealth dark matter particles can form different unstable composites that decay shortly after their creation. "For example, one could have composite particles made out of just two component particles," Vranas said.
These unstable particles might have masses of about 100 billion electron-volts or more, and could be created by particle accelerators such as the Large Hadron Collider (LHC) beneath the France-Switzerland border. They could also have an electric charge and be visible to particle detectors, Vranas said. Experiments at the LHC, or sensors designed to spot rare instances of dark matter colliding with ordinary matter, "may soon find evidence of, or rule out, this new stealth dark matter theory," Vranas said in a statement. If stealth dark matter exists, future research can investigate whether there are any effects it might have on the cosmos.
"Are there any signals in the sky that telescopes may find?" Vranas said. "In order to answer these questions, our calculations will require larger supercomputing resources. Fortunately, supercomputing development is progressing fast towards higher computational speeds." The scientists, the Lattice Strong Dynamics Collaboration, will detail their findings in an upcoming issue of the journal Physical Review Letters.
Questions 1–8: Complete the sentences below. Write NO MORE THAN TWO WORDS from the passage for each answer.
Q.1. One of the greatest mysteries in science is the nature of the _______ .
Q.2. All known materials have been mostly _______ as candidates for dark matter.
Q.3. Dark matter is a lot more _______ than normal matter.
Q.4. Due to high temperature, both ordinary and dark matter were 'melted' in a _____ .
Q.5. It is confirmed that quarks are within protons and neutrons by _______ .
Q.6. It is suggested that stealth dark matter particle would only have a _______ .
Q.7. Experiments at the LHC may soon find _______ of the new stealth dark matter theory.
Q.8. To answer questions we require _______ resources.

Questions 9-13: Do the following statements agree with the information given in the Reading Passage? Answer True, False or Not given. Note:
True: if the statement agrees with the information
False: if the statement contradicts the information
Not Given: if there is no information on this
Q.9. The nature of dark matter is a mystery.
Q.10. It is likely that dark matter consists of ordinary materials.
Q.11. Quarks have neither positive nor negative charge.
Q.12. Protons are not stable.
Q.13. Dark matter has a serious impact on the cosmos.

Question 14: Choose the correct letter, A, B, C, or D.
Q.14. The Passage is:
(a) a scientific article
(b) a sci-fi article
(c) a short sketch
(d) an article from a magazine

Solution of 1:

One of the greatest mysteries in science is the nature of the (dark matter).

Solution of 2:

All known materials have been mostly (ruled out) as candidates for dark matter.

Solution of 3:

Dark matter is a lot more (abundant) than normal matter.

Solution of 4:

Due to high temperature, both ordinary and dark matter were 'melted' in a (plasma state).

Solution of 5:

It is confirmed that quarks are within protons and neutrons by (strong interaction).

Solution of 6:

It is suggested that stealth dark matter particle would only have a (neutral charge).

Solution of 7:

Experiments at the LHC may soon find (evidence) of the new stealth dark matter theory.

Solution of 8:

To answer questions we require (larger supercomputing) resources.

Solution of 9:

The nature of dark matter is a mystery. - True

Solution of 10:

It is likely that dark matter consists of ordinary materials. - False

Solution of 11:

Quarks have neither positive nor negative charge. - False

Solution of 12:

Protons are not stable. - False

Solution of 13:

Dark matter has a serious impact on the cosmos. - Not Given

Solution of 14:

A - a scientific article

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