Aerodynamics teaches us that the heavier an object, the faster (more energy) is required across the wings to achieve lift. Moreso, the material that a plane is made out of has a limit to the amount of force it can handle. There will come a point where the plane can no longer overcome the force of gravity on it's mass.
it is heavier and fly lower it is heavier and fly lower it is heavier and fly lower it is heavier and fly lower more weght at the nose is better
Aerodynamics teaches us that the heavier an object, the faster (more energy) is required across the wings to achieve lift. Moreso, the material that a plane is made out of has a limit to the amount of force it can handle. There will come a point where the plane can no longer overcome the force of gravity on it's mass.
it is heavier and fly lower it is heavier and fly lower it is heavier and fly lower it is heavier and fly lower more weght at the nose is better
Generally and theoretically speaking, it all depends on Gravity, since the weight (not the mass) of an object determines how fast it will fall. Thus it is general knowledge to say that the heavier the weight of the paper, the shorter the flight path. The lighter the weight of the paper, the longer the airplane will stay in the air.
Of course, this also is highly dependent on the aerodynamic integrity of the paper airplane itself and how it is shaped and made to fly. A poorly built or folded paper airplane has a far shorter flight-path or no flight-path than one that is well built and/or folded, regardless of the weight of paper being used.
The weight of a paper airplane can have a significant impact on the distance it travels. In general, a heavier paper airplane will have more momentum and may travel farther due to increased force upon launch. However, excessive weight can also cause increased drag and reduce aerodynamic efficiency, ultimately limiting the distance the airplane can travel. It is important to find a balance between weight and aerodynamics to maximize the distance a paper airplane can travel.
it is the gravity affects the weight
No, not all bits of chaff will travel the same distance. Factors such as weight, size, and wind conditions can affect how far each piece of chaff travels when dispersed.
The combination of wing area and plane weight affect a paper airplane's glide ratio and range.
The weight of an object doesn't directly affect the distance it moves, but it can impact how quickly it accelerates or decelerates. Heavier objects usually require more force to move and may not travel as far due to increased friction or air resistance. Ultimately, factors like force applied and surface conditions play a more direct role in determining an object's movement distance.
Yes. It is true that lighter airplanes fly farther. More weight means more down thrust is acting on the plane. This means traveling less distance. But less weight means less downthrust. So the airplane flies farther.
the heavier the bb, the less distance it will travel, but the more accurate it will be. Also, the only time temperature can affect a shot is if you are using a gas gun, because the temperature affects the pressure of the gas and the fps of the shot Temperature also affect hop-up rubbers, so travel distance of bullet will be lower, when it's cold. Basically, at +20C bullet fly twice as far, then at -20C. When temperatere below 0C, most gas gun not capable of shooting.
yes because of its weight the weight brings it down
The longer the rubber band, the more potential energy it can store and transfer to the go cart. This can result in the go cart traveling a greater distance when released compared to a shorter rubber band. However, other factors like the weight of the go cart and the surface it travels on will also impact the distance it can travel.
To calculate distance with velocity and weight, you can use the equation for work: Work = Force x Distance. The force can be calculated by multiplying the weight with gravity. Velocity can then be used to determine the time it takes for the object to travel that distance using the equation Distance = Velocity x Time.
if you place a paper clip on your paper airplane, you may find it improves performance by equalizing the load (weight) and lift (what the wings generate)
Yes, the weight of a bat can affect hitting distance. Heavier bats can generate more power and distance but may sacrifice speed, while lighter bats offer more control and faster swing speed, which can impact hitting distance as well. It ultimately depends on the player's preference and abilities.
Assuming you mean the distance the bullet can travel, some things are: weather, windage, surface terrain, bullet weight, cartridge specs,