Questões de Concurso Militar EFOMM 2020 para Oficial da Marinha Mercante - Primeiro Dia

Foram encontradas 40 questões

Q1695459 Inglês
Development of world's first autonomous, zeroemission feeder postponed amid COVID-19 crisis


        Due to the COVID-19 pandemic and the changed global outlook, the development of the world's first autonomous and electric container vessel Yara Birkeland is put on hold, Norwegian company Yara announced.
        Yara has decided to pause further development of the vessel and will assess next steps together with its partners, the company stated. The hull of the Yara Birkeland vessel was launched to sea in Romania in February 2020. The ship is expected to arrive at the Norwegian shipyard in May where it will be fitted with various control and navigation systems and undergo testing before delivery to Yara.
       Yara and technology company Kongsberg teamed up in 2017 with the ambition to build the world's first autonomous and zero-emission container vessel.
        Replacing 40,000 truck journeys a year, Yara Birkeland seeks to reduce NOx and CO2 emissions and improve road safety in a densely populated urban area in Norway.

(Adapted from: https://safety4sea.com)
According to the article:
Alternativas
Q1695460 Inglês
Development of world's first autonomous, zeroemission feeder postponed amid COVID-19 crisis


        Due to the COVID-19 pandemic and the changed global outlook, the development of the world's first autonomous and electric container vessel Yara Birkeland is put on hold, Norwegian company Yara announced.
        Yara has decided to pause further development of the vessel and will assess next steps together with its partners, the company stated. The hull of the Yara Birkeland vessel was launched to sea in Romania in February 2020. The ship is expected to arrive at the Norwegian shipyard in May where it will be fitted with various control and navigation systems and undergo testing before delivery to Yara.
       Yara and technology company Kongsberg teamed up in 2017 with the ambition to build the world's first autonomous and zero-emission container vessel.
        Replacing 40,000 truck journeys a year, Yara Birkeland seeks to reduce NOx and CO2 emissions and improve road safety in a densely populated urban area in Norway.

(Adapted from: https://safety4sea.com)
In "[... ] the world's first autonomous and electric container vessel Yara Birkeland is put on hold [... ].",the idiom in bold means:
Alternativas
Q1695461 Inglês
Development of world's first autonomous, zeroemission feeder postponed amid COVID-19 crisis


        Due to the COVID-19 pandemic and the changed global outlook, the development of the world's first autonomous and electric container vessel Yara Birkeland is put on hold, Norwegian company Yara announced.
        Yara has decided to pause further development of the vessel and will assess next steps together with its partners, the company stated. The hull of the Yara Birkeland vessel was launched to sea in Romania in February 2020. The ship is expected to arrive at the Norwegian shipyard in May where it will be fitted with various control and navigation systems and undergo testing before delivery to Yara.
       Yara and technology company Kongsberg teamed up in 2017 with the ambition to build the world's first autonomous and zero-emission container vessel.
        Replacing 40,000 truck journeys a year, Yara Birkeland seeks to reduce NOx and CO2 emissions and improve road safety in a densely populated urban area in Norway.

(Adapted from: https://safety4sea.com)
Which statements are TRUE about the article?

I-The pandemic forestalled additional improvement ofthe feeder vessel.
II-The ship will enable a depletion of road freight and road hazards.
III-The vessel will be scrapped straight away.
IV-The Norwegian shipyard went bankrupt due to the changed global outlook.
V-The ship will be fitted with outdated controls and navigation systems.
Alternativas
Q1695462 Inglês
Passenger ship hits rock

        A passenger ship was inbound in daylight and fair visibility. The Master gave the Pilot a briefing regarding the ship's manoeuvring characteristics; the ship was highly manoeuvrable and would 'turn on a dirne,' he said. The Master told the Pilot that a three-degree helm order would create a rate of turn of 10-15 degrees per minute.
      The bridge team would consist of the Pilot at the con while the Master would bave overall navigational conunand. The staff captain would be in charge of communications while the first officer would be in charge of electronic navigation and collision avoidance. Finally, the second officer would be in charge of plotting the ship's position on the navigational chart,
        The Pilot and the . Master discussed and agreed the intended passage plan, noting a strong flood tide that would be running astern. However, the subsequent investigation found that, due to miscommunication during the exchange, the passage inwards began with the Master and Pilot having different understandings of how the first turn would be conducted.
        The ship was lined up with the leading navigation lights and entered the channel without incident. As the Pilot took the con, the Master brief ed the staff captain on the Master/ Pilot exchange and explained his understanding of how they were going to negotiate the tum to port. The rest of the bridge team were not included in this conversation and essentially relied on what they overheard.
        Under the Pilot's con, the first alteration of course to port was initiated using three degrees of port helm. At this time the vessel had a speed over ground (SOG) of nearly 18 knots. The initial helm order was followed by successive increases to five and then 10 degrees of rudder.
        About one minute after the initial three degree port helm order an offtrack: alarm flashed 011 the ECDIS, but this information was not brought to the attention of the Master or the Pilot. The alarm appeared only as a visual indicator on the radar screen because its audio had been muted prior to the ship entering the channel.
        Even so, the Master and Pilot soon realised that the ship was proceeding dangerously close to a known rock shoal, so 20 degrees of port rudder was ordered, immediately foll owed by maximum port rudder.
        About three minutes after the initial helm order of three degrees, and despite the emergency helm order, the ship's bilge keel and the starboard propeller made contact with the rock as the ship passed.
        The ship was then navigated back to the centre of the channel and continued on its passage to port without further incident.
        The official report on this accident discusses the concept of allowing a ship to depart from an intended track in the belief that other influences, such as tide in this case, would return the ship to the intended track. The report notes that this carries a high risk when manoeuvring large ships in narrow waterways, where margins for error are small. The report posits that there is less risk when a ship is kept strictly to the intended track by increasing or decreasing its rate of tum inresponse to the external influences such as tide and wind. This method has the advantage of being unambiguous for other members of the bridge team tasked with monitoring the progress of the ship against the planned track.


(Adapted from: https://steamshipmutual.com)
It is possible to infer from the text that:
Alternativas
Q1695463 Inglês
Passenger ship hits rock

        A passenger ship was inbound in daylight and fair visibility. The Master gave the Pilot a briefing regarding the ship's manoeuvring characteristics; the ship was highly manoeuvrable and would 'turn on a dirne,' he said. The Master told the Pilot that a three-degree helm order would create a rate of turn of 10-15 degrees per minute.
      The bridge team would consist of the Pilot at the con while the Master would bave overall navigational conunand. The staff captain would be in charge of communications while the first officer would be in charge of electronic navigation and collision avoidance. Finally, the second officer would be in charge of plotting the ship's position on the navigational chart,
        The Pilot and the . Master discussed and agreed the intended passage plan, noting a strong flood tide that would be running astern. However, the subsequent investigation found that, due to miscommunication during the exchange, the passage inwards began with the Master and Pilot having different understandings of how the first turn would be conducted.
        The ship was lined up with the leading navigation lights and entered the channel without incident. As the Pilot took the con, the Master brief ed the staff captain on the Master/ Pilot exchange and explained his understanding of how they were going to negotiate the tum to port. The rest of the bridge team were not included in this conversation and essentially relied on what they overheard.
        Under the Pilot's con, the first alteration of course to port was initiated using three degrees of port helm. At this time the vessel had a speed over ground (SOG) of nearly 18 knots. The initial helm order was followed by successive increases to five and then 10 degrees of rudder.
        About one minute after the initial three degree port helm order an offtrack: alarm flashed 011 the ECDIS, but this information was not brought to the attention of the Master or the Pilot. The alarm appeared only as a visual indicator on the radar screen because its audio had been muted prior to the ship entering the channel.
        Even so, the Master and Pilot soon realised that the ship was proceeding dangerously close to a known rock shoal, so 20 degrees of port rudder was ordered, immediately foll owed by maximum port rudder.
        About three minutes after the initial helm order of three degrees, and despite the emergency helm order, the ship's bilge keel and the starboard propeller made contact with the rock as the ship passed.
        The ship was then navigated back to the centre of the channel and continued on its passage to port without further incident.
        The official report on this accident discusses the concept of allowing a ship to depart from an intended track in the belief that other influences, such as tide in this case, would return the ship to the intended track. The report notes that this carries a high risk when manoeuvring large ships in narrow waterways, where margins for error are small. The report posits that there is less risk when a ship is kept strictly to the intended track by increasing or decreasing its rate of tum inresponse to the external influences such as tide and wind. This method has the advantage of being unambiguous for other members of the bridge team tasked with monitoring the progress of the ship against the planned track.


(Adapted from: https://steamshipmutual.com)
Mark the option that is TRUE about the text.
Alternativas
Respostas
1: C
2: C
3: E
4: A
5: E