Which answer best describes displacement? (1 point)
Responses
Displacement is a vector quality showing total length of an area traveled by a particular object.
Displacement is a vector quality showing total length of an area traveled by a particular object.
Displacement is a scalar quality showing total length of an area traveled by a particular object.
Displacement is a scalar quality showing total length of an area traveled by a particular object.
Displacement is a scalar quantity which accounts for how far away an object is after a period of time has elapsed from its initial starting point.
Displacement is a scalar quantity which accounts for how far away an object is after a period of time has elapsed from its initial starting point.
Displacement is neither a vector nor scalar quantity, which accounts for how far away an object is after a period of time has
9 answers
elapsed from its initial starting point.
Kelley is playing pool and hits the cue into the nine ball, which is directly in the center of the pool table. The nine ball travels a total of 7 meters before stopping, 1 meter to the left of the initial starting point of the nine ball. Which sentence reflects the correct statement regarding distance and displacement when considering the motion of the nine ball?(1 point)
Responses
The nine ball traveled a distance of 1 meter and was displaced by 7 meters.
The nine ball traveled a distance of 1 meter and was displaced by 7 meters.
The nine ball traveled a distance of 7 meters and was displaced by 1 meter.
The nine ball traveled a distance of 7 meters and was displaced by 1 meter.
The cue ball traveled a distance of 7 meters and was displaced by 1 meter.
The cue ball traveled a distance of 7 meters and was displaced by 1 meter.
The nine ball traveled a distance of 1 meter and was displaced by 1 meter.
Responses
The nine ball traveled a distance of 1 meter and was displaced by 7 meters.
The nine ball traveled a distance of 1 meter and was displaced by 7 meters.
The nine ball traveled a distance of 7 meters and was displaced by 1 meter.
The nine ball traveled a distance of 7 meters and was displaced by 1 meter.
The cue ball traveled a distance of 7 meters and was displaced by 1 meter.
The cue ball traveled a distance of 7 meters and was displaced by 1 meter.
The nine ball traveled a distance of 1 meter and was displaced by 1 meter.
The nine ball traveled a distance of 7 meters and was displaced by 1 meter.
What is velocity?(1 point)
Responses
Velocity is a scalar quantity that tells the distance an object has traveled over a period of time.
Velocity is a scalar quantity that tells the distance an object has traveled over a period of time.
Velocity is a vector quantity that tells the distance an object has traveled over a period of time.
Velocity is a vector quantity that tells the distance an object has traveled over a period of time.
Velocity is a scalar quantity that tells the acceleration of an object over a period of time.
Velocity is a scalar quantity that tells the acceleration of an object over a period of time.
Velocity is a vector quantity that tells the force of an object over a period of time.
Responses
Velocity is a scalar quantity that tells the distance an object has traveled over a period of time.
Velocity is a scalar quantity that tells the distance an object has traveled over a period of time.
Velocity is a vector quantity that tells the distance an object has traveled over a period of time.
Velocity is a vector quantity that tells the distance an object has traveled over a period of time.
Velocity is a scalar quantity that tells the acceleration of an object over a period of time.
Velocity is a scalar quantity that tells the acceleration of an object over a period of time.
Velocity is a vector quantity that tells the force of an object over a period of time.
Velocity is a vector quantity that tells the distance an object has traveled over a period of time.
Position, Distance, and Displacement Quick Check
4 of 54 of 5 Items
Question
Imagine a time-position graph where the velocity of an object is constant. What will be observed on the graph concerning the slope of the line segment as well as the velocity of the object?(1 point)
Responses
The slope of the line is equal to zero and the object will be stationary.
The slope of the line is equal to zero and the object will be stationary.
The slope of the line is positive, and the object will be stationary.
The slope of the line is positive, and the object will be stationary.
The slope of the line is negative, and the object will be stationary.
The slope of the line is negative, and the object will be stationary.
The slope of the line is equal to zero and the object will be in motion.
4 of 54 of 5 Items
Question
Imagine a time-position graph where the velocity of an object is constant. What will be observed on the graph concerning the slope of the line segment as well as the velocity of the object?(1 point)
Responses
The slope of the line is equal to zero and the object will be stationary.
The slope of the line is equal to zero and the object will be stationary.
The slope of the line is positive, and the object will be stationary.
The slope of the line is positive, and the object will be stationary.
The slope of the line is negative, and the object will be stationary.
The slope of the line is negative, and the object will be stationary.
The slope of the line is equal to zero and the object will be in motion.
The slope of the line is equal to zero and the object will be stationary.
Select the option that best summarizes the reason for the use of position-time graphs when studying physical science.(1 point)
Responses
Position-time graphs show the relationship between the position of an object (shown on the x-axis) and the time (shown on the y-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the x-axis) and the time (shown on the y-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show velocity.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show velocity.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show acceleration.
Responses
Position-time graphs show the relationship between the position of an object (shown on the x-axis) and the time (shown on the y-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the x-axis) and the time (shown on the y-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show displacement.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show velocity.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show velocity.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show acceleration.
Position-time graphs show the relationship between the position of an object (shown on the y-axis) and the time (shown on the x-axis) to show displacement.
1 answer