Can displacement be zero give two examples?

Can displacement be zero give two examples?

Yes,displacement can be zero. Eg 1. If a car is moving in a straight line from A to B and B to A so the displacement becomes zero. If a body is moving on the circumference of the circular track and started from point P and again stopped at point P so the displacement becomes zero.

What is the distance if displacement is zero?

When displacement is zero, particle may be at rest, therefore, distance travelled = 0.

Can displacement be negative give an example?

Displacement can be negative because it defines a change in position of an object while carefully monitoring its direction. Then you walk back towards your original location in the −h opposite direction. It is still in the direction −h opposite the drink location.

READ ALSO:   How is bending moment defined?

Is displacement negative or positive?

Displacement is a vector quantity, so we need to specify a magnitude and direction in order to characterize it fully. Unlike distance, which can only get more significant on any path taken, displacement can be positive, negative, or zero. Displacement is zero when you start and end at the same spot.

Can displacement be zero even if distance is not zero give example?

Yes, displacement can be zero even if the distance is not zero. For example, when a body is thrown vertically upwards from a point A on the ground, after sometime it comes back to the same point A.

What is an example of positive acceleration?

If the speed is increasing, the car has positive acceleration. When the car slows down, the speed decreases. When an object is speeding up, the acceleration is in the same direction as the velocity. Thus, this object has a positive acceleration.

How can displacement be positive negative or zero?

Displacement is a vector quantity, which means that we need to specify a magnitude and direction. So, unlike distance, displacement cares what direction the object is going when it moves between two points. So, in one dimension, displacement can be positive, negative, or zero.

READ ALSO:   Did the commandant molest AGU?

Can an object have zero displacement and non zero distance give one example to support your answer?

Yes. For example, a car travels from point A to B and then comes back. Suppose AB=5m. In this case, distance travelled is 10m, while the displacement is zero.

Is displacement of the object be positive or negative or zero?

What is positive and negative acceleration give one example of each?

Positive acceleration=​ A bus or car moving with increasing speed has positive acceleration. We can say that it is accelerating with the direction of travel. Negative acceleration=​In the above example, if we apply the break, the speed of the car decreases. Then it has negative acceleration.

Can the distance of an object be zero or negative?

The distance can never be zero or negative and it is always more than the displacement of the object. The distance of the object gives complete information about the path travelled by the object. Displacement is a vector quantity, which means that the displacement of an object depends on the direction of the motion of the object.

READ ALSO:   What is the mousetrap theory?

What is the displacement of the object?

The displacement of the object is the shortest distance that can join the initial position of the object and the final position of the object. The application of the concept can be understood by solving the numerical problems given later and by learning the basic formula for distance and displacement.

What is the distance of the displacement of the person?

Displacement will be the difference between the final position and the initial position of the person.In this case, the distance will be the total path travelled which is, 20+30+20=70. Finally, the person will be 30 km north from its starting position. Thus, its displacement is 30km towards north.

What is the difference between displacement formula and distance formula?

The displacement formula is different from that of distance. When we differentiate displacement, the result is velocity (which refers to both speed and direction of the object). Here, we should note that distance is always positive whereas displacement can be negative or positive.