Questões de concursos sobre "Comparativo e superlativo de adjetivos | Comparative and superlative" | Inglês - página 3

 Fill in the blanks with the most appropriate words:


She was the ____________ woman I ever met. Besides,
she was ____________ intelligent and creative. Also,
she received the ___________ recognition of her time for
_________ the first pianist of her country to receive an
international award. 

 Fill in the blanks with the most appropriate words:
She was the ____________ woman I ever met. Besides,
she was ____________ intelligent and creative. Also,
she received the ___________ recognition of her time for
_________ the first pianist of her country to receive an
international award. 

 Fill in the blanks with the most appropriate words:
She was the ____________ woman I ever met. Besides,
she was ____________ intelligent and creative. Also,
she received the ___________ recognition of her time for
_________ the first pianist of her country to receive an
international award.  

 Fill in the blanks with the most appropriate words:
She was the ____________ woman I ever met. Besides,
she was ____________ intelligent and creative. Also,
she received the ___________ recognition of her time for
_________ the first pianist of her country to receive an
international award.  

Considering the information in the text, mark T for the true statements and F for the false ones.


( ) highest (line 2), most basic (line 3), best work (line 16) are in the superlative form.

( ) better grades (lines 11 and 12), higher wages (line 13), more extrinsically motivated (line 18) are in the
comparative of inferiority form.

( ) us (line 3) and our (line 18) are possessive pronouns.

( ) motivated (line 11) and theoretical (line 2) are adjectives.


Mark the correct sequence.  

Read the paragraphs below and choose the alternative that fills in correctly and respectively the blanks with the comparative of equality, the comparative of superiority or the superlative of the given adjectives in parentheses. 

                                      This is how stars die 

        5,000 light years away in Centaurus, a large constellation in the southern sky, is the Boomerang Nebula, a cloud of gas being expelled from a dying star. 

        This cloud is one of _________ (bizarre) 1 and ___________ (mysterious) 2 objects in the universe. Here, within the gas streaming outwards, astronomers have found that the temperature drops ___________ (low) 3 nearly absolute zero. 

         It is, ___________ (far) 4 anyone knows, the coldest place in the universe. 

         It may also prove to be quite important. Because this ____________  (frigid) 5 place, and objects like it, albeit a tad ___________ (warm) 6– may help astronomers unravel a host of cosmic conundrums, from the violent yet spectacular deaths of stars and the formation of galaxies to cosmic explosions and the origin of life itself. 

         Death of stars, birth of life 

         In many respects the Boomerang Nebula is unremarkable. All stars have to die some day. When ___________ (small) 7 stars end, those about eight times _____________ (massive) 8  our own sun, they produce a similar display of gas and dust.

display of gas and dust.

Read the text below to answer the questions 11-15. 

NASA Researchers Studying Advanced Nuclear Rocket Technologies 

January 9, 2013 

By using an innovative test facility at NASA’s Marshall Space Flight Center in Huntsville, Ala., researchers are able to use non-nuclear materials to simulate nuclear thermal rocket fuels - ones capable of propelling bold new exploration missions to the Red Planet and beyond. The Nuclear Cryogenic Propulsion Stage team is tackling a three-year project to demonstrate the viability of nuclear propulsion system technologies. A nuclear rocket engine uses a nuclear reactor to heat hydrogen to very high temperatures, which expands through a nozzle to generate thrust. Nuclear rocket engines generate higher thrust and are more than twice as efficient as conventional chemical rocket engines. 

The team recently used Marshall’s Nuclear Thermal Rocket Element Environmental Simulator, or NTREES, to perform realistic, non-nuclear testing of various materials for nuclear thermal rocket fuel elements. In an actual reactor, the fuel elements would contain uranium, but no radioactive materials are used during the NTREES tests. Among the fuel options are a graphite composite and a “cermet” composite - a blend of ceramics and metals. Both materials were investigated in previous NASA and U.S. Department of Energy research efforts. 

Nuclear-powered rocket concepts are not new; the United States conducted studies and significant ground testing from 1955 to 1973 to determine the viability of nuclear propulsion systems, but ceased testing when plans for a crewed Mars mission were deferred. 

The NTREES facility is designed to test fuel elements and materials in hot flowing hydrogen, reaching pressures up to 1,000 pounds per square inch and temperatures of nearly 5,000 degrees Fahrenheit - conditions that simulate space-based nuclear propulsion systems to provide baseline data critical to the research team.

“This is vital testing, helping us reduce risks and costs associated with advanced propulsion technologies and ensuring excellent performance and results as we progress toward further system development and testing,” said Mike Houts, project manager for nuclear systems at Marshall. 

A first-generation nuclear cryogenic propulsion system could propel human explorers to Mars more efficiently than conventional spacecraft, reducing crews’ exposure to harmful space radiation and other effects of long-term space missions. It could also transport heavy cargo and science payloads. Further development and use of a first-generation nuclear system could also provide the foundation for developing extremely advanced propulsion technologies and systems in the future - ones that could take human crews even farther into the solar system. 

Building on previous, successful research and using the NTREES facility, NASA can safely and thoroughly test simulated nuclear fuel elements of various sizes, providing important test data to support the design of a future Nuclear Cryogenic Propulsion Stage. A nuclear cryogenic upper stage - its liquid- hydrogen propellant chilled to super-cold temperatures for launch - would be designed to be safe during all mission phases and would not be started until the spacecraft had reached a safe orbit and was ready to begin its journey to a distant destination. Prior to startup in a safe orbit, the nuclear system would be cold, with no fission products generated from nuclear operations, and with radiation below significant levels. 

“The information we gain using this test facility will permit engineers to design rugged, efficient fuel elements and nuclear propulsion systems,” said NASA researcher Bill Emrich, who manages the NTREES facility at Marshall. “It’s our hope that it will enable us to develop a reliable, cost-effective nuclear rocket engine in the not-too-distant future." 

The Nuclear Cryogenic Propulsion Stage project is part of the Advanced Exploration Systems program, which is managed by NASA’s Human Exploration and Operations Mission Directorate and includes participation by the U.S. Department of Energy. The program, which focuses on crew safety and mission operations in deep space, seeks to pioneer new approaches for rapidly developing prototype systems, demonstrating key capabilities and validating operational concepts for future vehicle development and human missions beyond Earth orbit. 

Marshall researchers are partnering on the project with NASA’s Glenn Research Center in Cleveland, Ohio; NASA’s Johnson Space Center in Houston; Idaho National Laboratory in Idaho Falls; Los Alamos National Laboratory in Los Alamos, N.M.; and Oak Ridge National Laboratory in Oak Ridge, Tenn. 

The Marshall Center leads development of the Space Launch System for NASA. The Science & Technology Office at Marshall strives to apply advanced concepts and capabilities to the research, development and management of a broad spectrum of NASA programs, projects and activities that fall at the very intersection of science and exploration, where every discovery and achievement furthers scientific knowledge and understanding, and supports the agency’s ambitious mission to expand humanity’s reach across the solar system. The NTREES test facility is just one of numerous cutting-edge space propulsion and science research facilities housed in the state-of- the-art Propulsion Research & Development Laboratory at Marshall, contributing to development of the Space Launch System and a variety of other NASA programs and missions. 

Available in: http://www.nasa.gov 


Read the following sentence taken from the text. 

 “Nuclear rocket engines generate  higher thrust and are more than twice  as  efficient  as  conventional chemical rocket engines.” 

 It is correct to affirm that the adjectives in bold and underlined are, respectively,

According to the context, the ADJECTIVE that adequately fills the blank is 

READ THE TEXT IN ORDER TO ANSWER THE QUESTIONS 21 -30: 




The word "wealthiest” in "the wealthiest in Latin America." (2nd paragraph) is: 

A palavra que preenche corretamente a lacuna é