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The average velocity of a particle when it returns to the starting point is zero. This is because velocity is a vector quantity that includes both magnitude and direction, and returning to the starting point means the displacement is zero, resulting in an average velocity of zero.
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When does the average velocity become zero?
The average velocity becomes zero when an object returns to its initial position after moving in a straight line. This happens when the displacement is zero over a period of time.
When does the avg velocity become 0?
Average velocity is 0 when an object returns to its starting point after moving away from it. This means that the total displacement of the object is 0, resulting in an average velocity of 0.
What is an example of average velocity of zero?
An example of average velocity of zero is when an object moves in a full circle and returns to its starting point within a given time interval. Since the displacement is zero (starting and ending at the same point), the average velocity is also zero.
Which describes average velocity of a uniclycle going around in circles?
The average velocity of a unicycle going around in circles is zero because it returns to its starting point over a full revolution, resulting in no overall displacement. However, the unicycle's speed may vary as it accelerates and decelerates during each rotation.
When A child throws a ball up in the air to a height of 3.5 m and catches it at the same point from which he threw it. The ball is in the air for a total of 1.7 seconds. What is the average velocity?
The average velocity of the ball is 0 m/s because it returns to its original position after 1.7 seconds. Since the displacement is zero, the average velocity is also zero.
When does the average velocity become zero?
The average velocity becomes zero when an object returns to its initial position after moving in a straight line. This happens when the displacement is zero over a period of time.
When does the avg velocity become 0?
Average velocity is 0 when an object returns to its starting point after moving away from it. This means that the total displacement of the object is 0, resulting in an average velocity of 0.
What is an example of average velocity of zero?
An example of average velocity of zero is when an object moves in a full circle and returns to its starting point within a given time interval. Since the displacement is zero (starting and ending at the same point), the average velocity is also zero.
How is it possible for a car to have an average velocity of zero and an average speed of 65 mph?
If the car has an average speed of 65 mph, when it returns to its starting point, it will have a displacement of zero and an average velocity of zero, because velocity has both speed and direction.
Which describes average velocity of a uniclycle going around in circles?
The average velocity of a unicycle going around in circles is zero because it returns to its starting point over a full revolution, resulting in no overall displacement. However, the unicycle's speed may vary as it accelerates and decelerates during each rotation.
Can average velocity of a moving body can be zero?
It actually can. Say a car moves north at 50 miles per hour for 4 hours. Then it moves south at 50 miles per hour for 4 hours. In the end, it returns to it's starting point. The average velocity over that 8 hour period is then zero, because it really went nowhere.
Can a body have nonzero average speed but have zero average velocity give example?
Yes, a body can have a nonzero average speed but zero average velocity if it moves around a closed path and returns to its starting point. For example, if a car travels around a circular track at a constant speed, its average speed will be nonzero (as distance is covered), but its average velocity over the entire trip will be zero as the displacement is zero.
When A child throws a ball up in the air to a height of 3.5 m and catches it at the same point from which he threw it. The ball is in the air for a total of 1.7 seconds. What is the average velocity?
The average velocity of the ball is 0 m/s because it returns to its original position after 1.7 seconds. Since the displacement is zero, the average velocity is also zero.
Neha swims 100m long pool.she covers 200m in one minute and forty seconds by swimming from one and to other and back along the same straight path find average speed and average celocity.?
To find Neha's average speed, we calculate the total distance covered (200m) divided by the total time taken (100 seconds), resulting in an average speed of 2 m/s. Average velocity considers the net displacement, which is 0m (as she returns to the starting point), leading to an average velocity of 0 m/s. Thus, her average speed is 2 m/s, while her average velocity is 0 m/s.
A cross country skier moves from location A to location B to location C to Location D each leg takes one minute to complete total time is 3 minutes calculate average velocity?
To calculate the average velocity, we need to know the total displacement and the total time taken. If the skier moves in a straight line from location A to B to C to D, and returns to the original starting point, the total displacement would be zero. Therefore, the average velocity would be zero since average velocity is defined as total displacement divided by total time. If the skier does not return to the starting point, the average velocity would depend on the net distance between the starting and ending points divided by the total time of 3 minutes.
What are the ratings and certificates for Straight to Hell Returns - 2010?
Straight to Hell Returns - 2010 is rated/received certificates of: USA:R
Can the average velocity of a moving body be zero. state example?
Yes, the average velocity of a moving body can be zero. For example, if an object moves to the right for a certain distance and then returns back to its original position in the same amount of time, the total displacement would be zero, resulting in an average velocity of zero.
