No, the Earth is not smoother than a pool ball.
No, it is not true that the Earth is smoother than a cue ball. The Earth's surface has mountains, valleys, and other features that make it rougher than a cue ball.
No, the Earth is not smoother than a cue ball. Cue balls are perfectly smooth, while the Earth's surface has mountains, valleys, and other natural features that make it rougher in comparison.
The Earth's surface is smoother than a cue ball because even though the Earth has mountains and valleys, on a relative scale, its surface irregularities are much smaller compared to the tiny imperfections on a cue ball.
This phrase means that starting a task or project with careful thought and planning can make the rest of the process much easier and smoother. By laying a solid foundation at the beginning, you increase the likelihood of success and efficiency in completing the task.
Diamonds are considered more valuable than water due to their scarcity, durability, and perceived rarity. Diamonds are mined in limited quantities, while water is abundant in comparison. Additionally, diamonds are often associated with luxury, beauty, and status, contributing to their higher perceived value.
No, it is not true that the Earth is smoother than a cue ball. The Earth's surface has mountains, valleys, and other features that make it rougher than a cue ball.
No, the Earth is not smoother than a cue ball. Cue balls are perfectly smooth, while the Earth's surface has mountains, valleys, and other natural features that make it rougher in comparison.
The Earth's surface is smoother than a cue ball because even though the Earth has mountains and valleys, on a relative scale, its surface irregularities are much smaller compared to the tiny imperfections on a cue ball.
Yes, it is.According to the World Pool-Billiard Association, a pool ball is 2.25 inches in diameter, and has a tolerance of +/- 0.005 inches. In other words, it must have no pits or bumps more than 0.005 inches in height. That's pretty smooth. The ratio of the size of an allowable bump to the size of the ball is 0.005/2.25 = about 0.002. The Earth has a diameter of about 12,735 kilometers (on average, see below for more on this). Using the smoothness ratio from above, the Earth would be an acceptable pool ball if it had no bumps (mountains) or pits (trenches) more than 12,735 km x 0.00222 = about 28 km in size. The highest point on Earth is the top of Mt. Everest, at 8.85 km. The deepest point on Earth is the Marianas Trench, at about 11 km deep. Hey, those are within the tolerances! So for once, an urban legend is correct. If you shrank the Earth down to the size of a billiard ball, it would be smoother.
5.96 cubic inches. This volume is for a US regulation pool ball which is 2.25 inches in diameter. As a pool ball is used, its size slowly decreases and it becomes out of round. This is due to the abrasive pool chalk used in the game, which is more like sandpaper than like chalk. So, this number applies only to a new pool ball.
The white ball is heavier than the rest of the balls
The Cue Ball is less weight than the Colored Balls.
That would depend on where the pool is located.If the pool is on Earth, then your weight is the same whether you'rein or out of the pool. In the pool, however, the buoyant force is directedopposite to the force of gravity, and cancels some or all of it, causingyour apparent weight to be less than when you're out of the water.
A ball typically rolls faster on gravel than on grass due to the smoother surface and reduced friction on gravel. Grass can create more resistance and slow down the ball's movement.
The pool legth depends on the level of players, and it ranges from 25 to 35 meters.
A ball typically rolls better on grass compared to dirt because grass provides a smoother and more even surface for the ball to roll on. Dirt surfaces may have more irregularities and bumps that can hinder the ball's movement.
No, Earth is bigger than a soccer ball. The analogy you may have seen is that if Earth were the size of a soccer ball, the Moon would be the size of a tennis ball, and would orbit the Earth at an average distance of 22 feet away.