The distance a javelin is thrown is measured from the point where the javelin first strikes the ground to the nearest mark made by the point of the javelin that remains in the ground. The measurement is then taken in a straight line from the first mark to the throwing line.
A measuring tape is commonly used to measure the distance a javelin travels. The tape is extended from the starting point to where the javelin landed to determine the distance thrown.
If a javelin does not stick into the ground, the throw is measured from the point where it first strikes the ground to the nearest edge of the curve made by the javelin. This method ensures a fair measurement of the distance thrown, even if the javelin does not stick into the ground.
No, a basketball falling toward the hoop after being thrown is an example of projectile motion, not circular motion. Circular motion involves an object moving in a circular path around a central point, while projectile motion involves an object moving in a curved path under the influence of gravity.
An example of describing an object's motion in relation to a reference point is: "The car moved northwards from the stop sign at the intersection." Here, the reference point is the stop sign, and the car's position and direction of motion (northwards) are described in relation to that reference point.
The distance a javelin is thrown is measured from the point where the javelin first strikes the ground to the nearest mark made by the point of the javelin that remains in the ground. The measurement is then taken in a straight line from the first mark to the throwing line.
A measuring tape is commonly used to measure the distance a javelin travels. The tape is extended from the starting point to where the javelin landed to determine the distance thrown.
If a javelin does not stick into the ground, the throw is measured from the point where it first strikes the ground to the nearest edge of the curve made by the javelin. This method ensures a fair measurement of the distance thrown, even if the javelin does not stick into the ground.
No, a basketball falling toward the hoop after being thrown is an example of projectile motion, not circular motion. Circular motion involves an object moving in a circular path around a central point, while projectile motion involves an object moving in a curved path under the influence of gravity.
The world record for the javalin is 140.80 meters.
in javelin you throw a long sick with a point called ajavelin
An example of describing an object's motion in relation to a reference point is: "The car moved northwards from the stop sign at the intersection." Here, the reference point is the stop sign, and the car's position and direction of motion (northwards) are described in relation to that reference point.
An example of motion is a car moving along a road. The car is changing its position relative to a stationary point, demonstrating motion.
Oscillatory motion is a repetitive back-and-forth movement around a central point. An example is a pendulum swinging back and forth, where the motion alternates between two extreme points.
Yes, a bouncing ball can be considered an example of simple harmonic motion when it bounces up and down in a consistent pattern. The ball's motion can be modeled using concepts like amplitude, frequency, and period which are typical in simple harmonic motion.
A ball thrown in the air at its lowest point has mostly kinetic energy, which is energy of motion. At the lowest point, the ball's potential energy (due to its height) is minimal while its kinetic energy is maximized.
the speed at the point of release can be up to 70 miles per hour in the Olympic Games it depends how hard you throw it. the harder you throw, the faster it will be. there is no average speed