Which of the following would be a key performance indicator for a student pursuing a bachelors degree in English?

Biology

2 answers:

Temka [501]3 years ago

4 0

Answer:

A. maintain a minimum average of 80% on all exams

Explanation:

MArishka [77]3 years ago

4 0

Answer:

The correct answer is option A. "Maintain a minimum average of 80% on all exams".

Explanation:

A key performance indicator is a measurable value that helps to demonstrate if an objective is going to be achievable. In this case, the objective is for a student pursuing a bachelors degree in English. Maintain a minimum average of 80% on all exams is a key performance indicator because it is measurable, it is trackable and it is reliable because it covers the performance in all exams, instead of just one exam or just one event.

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You are making an illustration of the life cycle of an average star and the life cycle of a massive star as part of a computer a

Leya [2.2K]

The average star cycle: nebula, protostar, main sequence, red giant, white dwarf. The massive star cycle: nebula, protostar, main sequence, super red giant, supernova, black hole, neutron star.

The star cycle is the sequence of changes that a star undergoes throughout its existence.

<h3>The evolutive stages of an<u> average star</u> are </h3>

Nebula: Stars are born from the nebula that is the dust and gas particles condensation due to gravity effect in the interstellar clouds

Protostar: It is a more advanced level of condensation.

Main sequence. Equilibrium between gravity and nuclear fusion helps the star keep stable as long as the fuel lasts. The two main types are

• <em>Orange dwarf</em><em>: </em>between the red dwarf and the yellow dwarf

• <em>Yellow dwarf:</em> Like the sun

Subgiant: occurs when orange and yellow dwarfs finish their main sequence and start to run out of fuel, expanding.

Red giant. After the subgiant stage, the star enters a giant phase. The star can reach a size of up to 100 times its current size.

White dwarf. When average-sized stars run out of fuel, the red giant begins to disintegrate, losing its outer layers and exposing its core, which will become a white dwarf.

<h3>The evolutive stages of a<u> </u><u>giant star</u><u> </u>are </h3>

Nebula

Protostar

Main sequence. There are two main types

• <em>Yellow supergiant</em>. Extremely short phase. Almost no stars are known to be in this stage. The star swells on its way to becoming a red supergiant.

• <em>Red supergiants</em> are the largest stars in volume, but not in mass.

Supernova. When fuel is over in the red supergiants, the gravitational collapse produces a violent explosion originating the supernova.