ASVAB General Science Practice Test 74392 Results

Your Results Global Average
Questions 5 5
Correct 0 3.17
Score 0% 63%

Review

1

When two air masses meet and neither is displaced, what kind of front is present?

75% Answer Correctly

warm 

cold

stationary

occluded


Solution

When two air masses meet and neither is displaced, a stationary front is created. Stationary fronts often cause persistent cloudy wet weather.


2

Examples of secondary consumers include:

52% Answer Correctly

grasshoppers

wolves

chickens

plankton


Solution

Secondary consumers (carnivores) subsist mainly on primary consumers. Omnivores are secondary consumers that also eat producers. Examples are rats, fish, and chickens.


3

Earth's history is divided into time periods, which of these is the shortest time period? 

57% Answer Correctly

epoch

age

period

eon


Solution

The Earth is approximately 4.6 billion years old and its history is divided into time periods based on the events that took place and the forms of life that were dominant during those periods. The largest graduation of time is the eon and each eon is subdivided into eras, eras into periods, periods into epochs, and epochs into ages.


4

The crust and lithosphere of the Earth is made up of which of the following?

58% Answer Correctly

metamorphic rock

plates

continents

sedimentary rock


Solution

The crust and the rigid lithosphere (upper mantle) is made up approximately thirty separate plates. These plates more very slowly on the slightly more liquid mantle (asthenosphere) beneath them. This movement has resulted in continental drift which is the gradual movement of land masses across Earth's surface. Continental drift is a very slow process, occurring over hundreds of millions of years.


5

Vector quantities are fully described by which of the following?

75% Answer Correctly

a magnitude only

a magnitude and a direction

a direction only

a direction and a polarity


Solution

Velocity and displacement are vector quantities which means each is fully described by both a magnitude and a direction.  In contrast, scalar quantities are quantities that are fully described by a magnitude only.  A variable indicating a vector quantity will often be shown with an arrow symbol:  \(\vec{v}\)