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Yes they are. Vector quantities has both magnitude and direction, whereas scalar quantities only have magnitude.
Examples of vector quantities:
Displacement (Δd) - 10 m [W] or 36 km [W]
Velocity (v) - 10 m/s [60° N of W] or 36 m/s [60° N of W]
Acceleration - 9.8 m/s2 [↓] - this value is the acceleration dude to gravity (if we ignore air resistance).
What else can I help you with?
If displacement is decreasing then velocity is?
If displacement is decreasing, then velocity can be positive, negative, or zero, depending on the direction of motion. If the object is moving in the positive direction, a decreasing displacement may result in a positive velocity. If the object is moving in the negative direction, a decreasing displacement may lead to a negative velocity. If the object is stationary and its displacement is decreasing, the velocity is zero.
Which describes the average velocity of a bicycle going at a constant speed in constant direction?
The total displacement divided by the time. The slope of the displacement vs. time graph.
How do you make velocity?
Velocity is calculated by dividing the displacement of an object by the time taken to cover that displacement. It is a vector quantity, meaning it has both magnitude and direction. The formula is: velocity = displacement / time.
How do you find displacement from velocity and time?
Displacement can be found by multiplying the velocity by time. If the velocity is constant, displacement can also be calculated using the formula: displacement = velocity x time. Remember to include the direction of the velocity in your answer.
Can the directions of velocity and displacement of a particle be different?
Yes, the directions of velocity and displacement of a particle can be different. Velocity is a vector quantity that includes both speed and direction, while displacement is a vector quantity that represents the change in position. Therefore, it is possible for a particle to move in one direction while its displacement changes in another direction.
If displacement is decreasing then velocity is?
If displacement is decreasing, then velocity can be positive, negative, or zero, depending on the direction of motion. If the object is moving in the positive direction, a decreasing displacement may result in a positive velocity. If the object is moving in the negative direction, a decreasing displacement may lead to a negative velocity. If the object is stationary and its displacement is decreasing, the velocity is zero.
What can be determined from a velocity time graph?
The simplest answer is the velocity of an object at a given time. It is also possible to determine the acceleration and displacement - but only in the same direction as the velocity. No information on motion in a transverse direction can be determined.
What is the formula of velocity?
There are several definitions. not just one. Average velocity in a direction = Average displacement (distance) in that direction/time Instantaneous velocity in a direction = derivative of displacement in that direction with respect to time Average velocity in a direction = Initial velocity in that direction + Average acceleration in that direction * time Instantaneous velocity in a direction = Definite integral of acceleration in that direction with respect to time, with initial velocity at t = 0 Then there are others in which time is eliminated.
Which describes the average velocity of a bicycle going at a constant speed in constant direction?
The total displacement divided by the time. The slope of the displacement vs. time graph.
How do you make velocity?
Velocity is calculated by dividing the displacement of an object by the time taken to cover that displacement. It is a vector quantity, meaning it has both magnitude and direction. The formula is: velocity = displacement / time.
How do you find displacement from velocity and time?
Displacement can be found by multiplying the velocity by time. If the velocity is constant, displacement can also be calculated using the formula: displacement = velocity x time. Remember to include the direction of the velocity in your answer.
Can the directions of velocity and displacement of a particle be different?
Yes, the directions of velocity and displacement of a particle can be different. Velocity is a vector quantity that includes both speed and direction, while displacement is a vector quantity that represents the change in position. Therefore, it is possible for a particle to move in one direction while its displacement changes in another direction.
Does average velocity have a direction associated with it?
The term "velocity", as used in physics, DOES have an associated direction. Most derived terms, such as "average velocity", also do.
Identify the two pieces of information you need to know the velocity of an object?
Displacement and Time, displacement is the distance with a direction ( vector quantity) , and time . Displacement and velocity are directly proportional, while velocity and time are inversely proportional..( The faster, the less time it will take) Velocity = Displacement ____________ Time
What are the difference of instantaneous velocity and average velocity?
Average velocity in a direction is calculated as the displacement in that direction divided by the total time taken. As the time interval is reduced, the displacement over that period also reduces and the limiting value of that ratio is the instantaneous velocity.
Velocity describes both?
the speed and direction of an object's motion. It is a vector quantity, which means it has both magnitude and direction, unlike speed which is a scalar quantity. Velocity is calculated by dividing the displacement of an object by the time taken to cover that displacement.
Is angular displacement and angular velocity the same?
No, angular displacement refers to the change in angle of an object relative to a reference point, while angular velocity is the rate at which an object changes its angle over time. Angular displacement is a scalar quantity, measured in radians, while angular velocity is a vector quantity with direction and magnitude, measured in radians per second.
