Explanation: The development of cannons was a significant part of history in wartime and surprisingly, physics. The very motion of a cannon ball is so similar to projectile motion that it isn’t too hard to figure out that there exists a connection between the two. Projectile Motion, which is a part of mechanics, is the motion of an object in a two-dimensional world. Since a cannon travels in these two dimensions, making a similar curve, they are a prime example used in applying concepts of projectile motion. To discover one of the greatest practical use of physics is to identify how physics helped develop the cannon with example, relate it to at least two factors and additionally answer to a self-created research question, “To what extent is Physics applied in developing cannons?”
Physics has had a tremendous contribution on the development of cannons. It was as early as 1646 where there are records of physics being used to improve the cannon. The most common uses of the cannons were acts of war and the first time someone applied physics to this concept was at the Siege of Worchester. Nathan Nye, author of the book, ‘The Art of Gunnery’, applied different forms of triangulation, arithmetic, and theoretical mathematics to win this battle using cannons. Naturally, he was a key figure who contributed to the development of cannons (Nye). One of first scientists to form their own theories about the motion of a cannonball was Aristotle. He believed that if a cannon were fired, the vertical motion would be constant in proportion to the weight of the object (“Aristotle vs Galileo”). He also believed that projectiles travel upward and outward in a straight line until they “run out of gas” and then fall straight down.
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Explanation: The development of cannons was a significant part of history in wartime and surprisingly, physics. The very motion of a cannon ball is so similar to projectile motion that it isn’t too hard to figure out that there exists a connection between the two. Projectile Motion, which is a part of mechanics, is the motion of an object in a two-dimensional world. Since a cannon travels in these two dimensions, making a similar curve, they are a prime example used in applying concepts of projectile motion. To discover one of the greatest practical use of physics is to identify how physics helped develop the cannon with example, relate it to at least two factors and additionally answer to a self-created research question, “To what extent is Physics applied in developing cannons?”
Physics has had a tremendous contribution on the development of cannons. It was as early as 1646 where there are records of physics being used to improve the cannon. The most common uses of the cannons were acts of war and the first time someone applied physics to this concept was at the Siege of Worchester. Nathan Nye, author of the book, ‘The Art of Gunnery’, applied different forms of triangulation, arithmetic, and theoretical mathematics to win this battle using cannons. Naturally, he was a key figure who contributed to the development of cannons (Nye). One of first scientists to form their own theories about the motion of a cannonball was Aristotle. He believed that if a cannon were fired, the vertical motion would be constant in proportion to the weight of the object (“Aristotle vs Galileo”). He also believed that projectiles travel upward and outward in a straight line until they “run out of gas” and then fall straight down.