Cannonballs are typically made from cast iron or steel. These materials are dense and strong enough to withstand the explosive force when fired from a cannon.
Yes, the material and texture of a ball can affect how high it bounces. A ball made of a more elastic material will typically bounce higher compared to a ball made of a less elastic material. Additionally, a smoother surface may lead to higher bounces compared to a rougher surface.
The speed at which an object falls is not affected by its weight or mass, so a solid stone ball should fall just as quickly as a hollow wooden ball. But a ball made of a rougher material could slow it down. The material of the ball should only matter if affects how smooth the ball is.
The kinetic energy of the cannon ball can be calculated using the formula KE = 1/2 * m * v^2, where m is the mass of the cannon ball (50 kg) and v is its velocity (80 m/s). Plugging in these values, you would find that the kinetic energy of the cannon ball is 160,000 Joules.
A bouncy ball is typically made of rubber or a similar elastic material. The manufacturing process involves mixing rubber compounds, shaping the material into a spherical shape, and then vulcanizing or heating the material to give it its bounce and resilience. The final step is usually polishing the ball to improve its bounce and appearance.
To calculate the mass of a ball, you would typically use the density of the material the ball is made of and its volume. The formula to calculate mass is mass = density x volume. You would need to know the density of the material and measure the volume of the ball to determine its mass.
Cannon balls are made of iron, which is a high-stress material. A high-stress material resists breaking. Because the cannon has an open end, and the iron ball resists being torn apart, the cannon ball is shot out instead.
The first cannon ball was made in the 3rd century BC in a place called Alexandra
To calculate the volume of the cannon ball, we need to know its density. Without this information, we cannot determine the volume with just the mass provided (5125g). The volume depends on the density of the material the cannon ball is made of.
That depends on the material from which the ball is made, if this material is elastic then no.
A cannon ball.
The only way I can think of is to measure its diameter, then do an online search to find out if there were any muzzleloading cannons made with bores your ball would fit in.
to mislead the enemy
a cannon ball
A trajectory is the angle made with the horizontal when a projectile is fired. Suppose the projectile is a cannon ball. Assuming air is frictionless, that cannon ball will travel the greatest distance if the trajectory is 45 degrees from horizontal.
the size of the cannon ball depends on the size of the cannon. civil war cannons had cannon balls about the size of a child's head, aprox 30cm across
cannon ball
skin of pig