Yes because the object will either weigh the disc down or change its proportion, causing it to fly differently.
the rim of the frisbee pushes the airstream under the frisbee creating lift and the small ridges u probably see are made to create turbulence which balances with the airstream that goes over the top of the frisbee it. this turbulence allows the air to flow right across the top of the frisbee making the air flow over the top of the frisbee faster then the air flow underneath it. this allows the frisbee to fly farther and keep its speed and yeah im righting a whole report on frisbees and ive studied how frisbees work and why their built the way they are for a long time so this answer is completely write!
The distance from the top of a crest to the equilibrium position is known as the amplitude. It represents the maximum displacement of the oscillating object from its equilibrium position.
You can use trigonometry to measure the height of an object that is too far away to directly measure the distance to. By measuring the angle of elevation from your position to the top of the object and knowing your distance from the object, you can use trigonometric functions to calculate the height.
It is either the average distance of the object from some fixed base - for example the altitude of a city above mean sea level or the distance between the top and the bottom of the object.
Height - is the distance from the ground to the top of an object... width is the distance across the widest part... and depth is the measurement from front to back.
Golden Gate Park in San Francisco, Victor Malafronte throws a sidearm 119-gram Model Frisbee 538 feet. In 1978 Boulder, Colorado, while doing a distance throwing demonstration at a North American Series (NAS) Frisbee Event, Ken Westerfield threw a sidearm 119-gram World Class Model Frisbee 552 feet. These are the two longest sidearm (forehand) throws ever.
i want to know
Because they are closer to your line of vision. . . imagine you are 10 meters away from an object. imagine you have these lines coming out of your eyes , and one of the lines touches the top edge of the object , and another line touches the bottom edge of the object. now imagine the object is 5 meters closer to you. the distance between the top edge and the bottom edge is greater because you are closer to the object. .. OK to make this simpler , -- your eye is like the top of a tweezers. you put a pen(object) between the tweezers. as you move the pen closer to the top of the tweezers , the two prongs widen, making a bigger distance, and from your viewing point at the top of the tweezers the object appears bigger.
An object's height is a measurement of its vertical distance from the base to the top. It is commonly used to describe how tall or how high an object is in comparison to its surroundings. Height is one of the dimensions used to fully describe an object's size and shape.
"Try to top our muffins" "We're the muffins on top" "You can't catch me, i'm the muffin man" "Best muffins in town" "Huck my muffin"
Height refers to the measurement from the bottom to the top of an object, typically a person. Mass, on the other hand, is the amount of matter in an object. Height is a measurement of vertical distance, while mass is a measure of the amount of material in an object.
As far as I know it shouldn't affect top speed (assuming that is the question). Weight will affect acceleration and therefore speed after a given amount of time or distance. An example would be 1/4 mile times at a race track. But top speed should be governed primarily by the wind resistance of the body, horsepower of the engine, and the overall gear ratio in top gear. Weight may affect rolling resistance slightly and therefore affect top speed but I suspect this affect would be negligible.