How to Throw a Boomerang
How to Throw a Boomerang. When you Throw a Boomerang, Contrary to what is known, all the boomerangs will not come back when they are thrown. Boomerangs that can go back to the thrower are only used by Aborigines as a sport or to hunt birds. It is known that boomerang-like but non-returning similarities have been used by ancient Egyptians, southern India, Indonesia (Borneo) and America since the early ages of history.
The boomerangs have a distinctive shape. It usually consists of a combination of two wings. The boomerang has wings on one side while the other has a curved side, similar to fissures. When the boomerang is moving in the air, the air passing by the curve of the wing is flat faster than by the past. This causes a differential pressure between the curved and flat face of the wing and a clear force on the wing, toward the side where the pressure is low. This force is often referred to as the lift force because it allows the aircraft to remain in the air.
How to Throw a Boomerang
If you Throw a Boomerang in parallel or slightly downward, it will climb up to a height of 15 meters after crossing the elevation. If it is thrown at a point where it bounces, it rises at a tremendous speed like a bullet that hits the ground and completes its orbit by drawing a 45-meter circle or ellipse, falling near the launcher.
Position for Throw a Boomerang
If there is wind in the air – even if there is a slight breeze – you should use it – we turn against the wind and if we Throw a Boomerang with the right hand, if we Throw a Boomerang with the left hand, we turn 45 degrees to the left. The reason we do this is to make boomerang easy to complete the turn and to guide us in the wind. If your position is not smooth, Throw a Boomerang will be much ahead of you, on your right or in your breath.
Hold to Throw a Boomerang
The boomerang has two surfaces, the curved surface and the flat surface. You must hold the flat surface by gripping it from the edge so that it will fit inside your pocket. Your knife must be bent backwards so that you can apply extra rotation to the boomerang at the moment of the shot. The more you rotate the bumper, the more likely it will be to hold on to the air flow and return. Being able to turn better makes it easier to Throw a Boomerang away and take it back.
Shot for Throw a Boomerang
You must Throw a Boomerang upright on your shoulder, as if you were throwing an ax in the sand, or Thor’s throwing a hammer. You should apply a right angle of about 25-30 degrees, so your shot should not be straight. You can perceive this shot angle more easily with one or two experiments.
If you have a lot of wind, if the boomerang is a bit lower towards the low, Throw a Boomerang up higher. If you throw the boomerang too high in the very wind, you can cause it to fall as much as you would like to take off.
The other important thing about shooting is that when you do this you can apply your spinning motion like you are doing a whip blow, so you can apply more rotation. As you improve your ability to spin, you can try to Throw a Boomerang further. Your turning speed and throwing speed should be increased and balanced in relation to each other.
Do not get tired of experimenting and throwing abundantly, you can not learn anything without trying. Every time you try to do it systematically, set your shot speed and shot direction, and change only the shot angle. You will decide if your awareness will develop and after enough repetition it is a child’s play.
Catch after Throw a Boomerang
Follow the back of boomerang and get your palms up and down facing each other. Try to keep your palms on top of each other so that you can catch him right in the middle. The central zone will always remain stable as it returns, and trying to catch it will increase your chances of retention.
By trying to catch it from the tips you have left it to chance but you can create a cooler image. As you develop yourself, you can try different forms of capture.
What is Boomerang
The face of the boomerang is curved on one side while the other side is curved similar to the sides of the wings. When the boomerang is moving in the air, the air passing by the curve of the wing is flat faster than by the past. Most boomerangs range in size from about 30 to 60 cm, with smaller or larger varieties.
When thrown right, the boomerang goes back to the track following a circular path in the air. Non-returning boomerangs are also curved wood pieces; however, it is both heavier and more elongated (1 meter radius) and does not have specially made wings that allow it to return.
Curved shapes allow them to be thrown freely in the air. It is easy to take aim and they are known as good catching tools because they move fast in the air.
How does Boomerang fly?
When we Throw a Boomerang rod into the air, it goes a while and falls somewhere after a while due to gravity. Changing the shape of the stick can make it stay more in the air and return to you. How Does? The boomerang is different from ordinary sticks, the first feature being that it has come to fruition from at least two components.
This ensures that it rotates around a central point and that the movement is stabilized as it travels in the air. Backless boomerangs are also important. Because this is due to the stabilization effect, it has a much stronger effect when hit against the straight stick. They can be thrown farther.
The classic bumerang that resembles a banana, has two wings joined together in one unit. This wing is already an important part of the strange flight path. The wings have a design with a slight slope and an aerodynamic profile.
Just like the plane is in the wing, one side of the wings is rounded and the other side is flat. This design allows wing lift. Air particles move faster along the upper part of the wing than on the lower part; which creates a different air pressure.
When the wing moves, there is more pressure underneath it, and the wing gains the ability to lift. As can be seen, the two wings are so arranged that the leading edges look in the same direction as the wings of the propeller. Bumerang is a propeller that is essentially unattached.
Like the airplane’s front or helicopter’s head, the propellers rotate their wings to form a forward force in the air. This force acts on the axis, which is the central point of the propeller. As we did with the frisbee, if we hold it horizontally while throwing it, the forward movement will also be upward because the direction pointed by the axis is upward.
So Boomerang will fly up and down like a helicopter landing from the ground, stay in the air until it is pulled down by gravity.
If we hold the throwing vertically, it is obvious that throwing the boomerang is the correct form, not the right or leftward flight.
This causes a differential pressure between the curved and flat face of the wing and a clear force on the wing, toward the side where the pressure is low.
This force is often referred to as the lift force because it allows the aircraft to remain in the air. The design of the edges of the boomerang wings is also unique.
One side of the wings is more pointed than the other, and one of the wings looks inside the pointed edge while the other wing looks outward. The boomerang is thrown as if the plane of rotation is perpendicular.
Boomerangs swirl around the center where the two wings join in the air. That is, it moves both forward and backward around its axis. During the air movement of the boomerang, the rotation speed of the upper wing and the rotation speed of the lower wing are not equal to each other.
This causes the net forces acting on the wings with one face curved and the other face flat to be different from each other. When the plane of the aircraft wings is parallel to the surface, the lift force acts from the top to the bottom.
In boomerang, the surface of the wings is erected on the surface and the lift force acting on the wings causes the boomerang to turn and follow a circular path.
How does Boomerang return?
The returning boomerangs are launched like a prop about their own axis, and the plane of the fictitious circle, which is launched, is inclined slightly to the right or to the left of the perpendicular plane.
This inclination is right on the right handed boomerangs. According to the thrower, he comes back from the right, drawing a circular trajectory to the left. When boomerang is moving at a certain speed in the air, it returns at the same time, and the upper arm is higher than the lower arm relative to the air.
Because the tangential velocity of the cismin in the rotational motion changes direction to be tangent to the circle. This speed is at the upper part in the direction of boomerang movement and at the lower part it is in the opposite direction. The higher the speed of the upper part, the more force on the upper part causes the lift force.
This tries to roll the fictitious circle that the rotating boomerang creates, to the left if it is tilted to the right. But it does not overturn with its gyroscopic effect, which is caused by its rotation around its axis, and makes a rotation about the vertical axis of the fictitious circle.
As a result of this movement, the direction of the fictional chamber always changes and eventually comes to the starting point by following a circular trajectory.
The design of the edges of the boomerang wings is also unique. One side of the wings is more pointed than the other, and one of the wings looks inside the pointed edge while the other wing looks outward.
Throw a Boomerang as if the plane of rotation is perpendicular. Boomerangs swirl around the center where the two wings join in the air. That is, it moves both forward and backward around its axis.
During the air movement of the boomerang, the rotation speed of the upper wing and the rotation speed of the lower wing are not equal to each other. This causes the net forces acting on the wings with one face curved and the other face flat to be different from each other.
When the plane of the aircraft wings is parallel to the surface, the lift force acts from the top to the bottom. In boomerang, the surface of the wings is erected on the surface and the lift force acting on the wings causes the boomerang to turn and follow a circular path.