If you love to play domino, you have probably noticed that each piece has one side that shows its value, and the other side is blank. Those blank sides make it impossible to match up the tiles with other ones in the same row, so the player has to wait for someone else to play before they can continue on their way. In a way, domino works the same as a story scene: each one is ineffective by itself, but when all of them come together in a row, they can naturally influence what happens next.
A Domino Effect
Before Hevesh starts building her mind-blowing domino installations, she makes test versions of each section. She films these tests in slow motion to ensure that everything works as intended. She also uses them to correct any sections that don’t go up exactly right, and only when every single part of her creation is perfect does she put it all together.
When she sets up a series of dominoes, Hevesh focuses on the placement of each tile to create an even flow throughout the entire installation. She also makes sure to use a hard surface, which helps the dominoes stand upright. This is necessary for a smooth, even roll of the pieces and to ensure that they don’t fall over.
Hevesh’s impressive domino installations take a lot of work to create, and they’re not just for show. She uses her artwork to teach people about the properties of gravity and the laws of motion. In addition, she believes that the art form of domino has the power to inspire creativity and the belief in possible outcomes.
Each domino has a line down its center to visually divide it into two squares, each of which is marked with an arrangement of dots, called pips, that resemble the spots on a die. Each of the pips is assigned a specific value, from six pips down to zero or blank. A domino is normally twice as long as it is wide.
A physics professor at the University of British Columbia has demonstrated that a series of dominoes can knock down something one-and-a-half times its size. He set up 13 dominoes, from the first that was 5 millimeters tall and 1 millimeter thick (that’s actually smaller than a Tic Tac) to the last that was more than three feet tall and weighed 100 pounds.
The physicist showed that when the first domino falls, it converts some of its potential energy into kinetic energy, which propels the next domino forward to knock it over. The process continues until the last domino falls.
The domino is a popular game that can be played with one, two, or more players. The rules vary slightly between different games, but the basic object of the game is to lay a line of dominoes end to end and count the total number of pips in each player’s remaining hand. If a player cannot play any more dominoes, they must “knock” and pass the turn to their opponents.