Stick force gradients refer to how much force is required to move the control stick in an aircraft. A shallow stick force gradient means small changes in force result in large changes in aircraft response, making it more sensitive. A steep stick force gradient means larger changes in force are needed for the same response, making it less sensitive. Pilots use stick force gradients to control the aircraft's maneuverability.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
No, using a stick to push an object is an external force, not a muscular force. Muscular force comes from the contraction of muscles in the body.
The force that the puck exerts on the hockey stick depends on various factors, such as the speed of the puck, the angle at which it hits the stick, and the mass of the puck. This force can be calculated using the principles of classical mechanics and is typically measured in Newtons.
the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
The equal and opposite reaction is the wall pushing back against you. When you hit the wall with a stick, the force you exert on the wall is transferred to you through the stick, causing the wall to push back with an equal force. The stick simply transmits this force between you and the wall.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
No, using a stick to push an object is an external force, not a muscular force. Muscular force comes from the contraction of muscles in the body.
The force that the puck exerts on the hockey stick depends on various factors, such as the speed of the puck, the angle at which it hits the stick, and the mass of the puck. This force can be calculated using the principles of classical mechanics and is typically measured in Newtons.
the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
The equal and opposite reaction is the wall pushing back against you. When you hit the wall with a stick, the force you exert on the wall is transferred to you through the stick, causing the wall to push back with an equal force. The stick simply transmits this force between you and the wall.
press left analog stick and right analog stick
The stick will rotate clockwise due to the applied force. The rotation will be determined by the torque exerted by the force, which depends on the magnitude of the force and the distance from the point of rotation. The rotational motion is described by the principles of torque and angular momentum.
The force responsible for sticking a balloon to a wall is called adhesion. This force occurs due to the attraction between the molecules of the balloon and the molecules of the wall, causing them to stick together.
The output force is greater than the input force for a single fixed pulley. This is due to the mechanical advantage provided by the pulley system. For a pizza cutter, hockey stick, and screw, the output force is typically equal to or less than the input force.
when you stick a float in the water
when you stick a float in the water
The primary action force in a pogo stick is the force exerted by the user pushing down on the spring. This force compresses the spring, storing potential energy. When the spring expands, it exerts an equal and opposite reaction force on the user, propelling them upwards. Frictional forces and air resistance also play a role in damping the motion of the pogo stick.