Frictional Force
Gravity is the main resistance force on any aircraft. Wind resistance would be second.
Effort force is the force applied to overcome resistance force in order to move an object, while resistance force is the force that opposes the motion of an object. Effort force acts in the direction of motion, whereas resistance force acts in the opposite direction. The ratio of effort force to resistance force is a measure of mechanical advantage in simple machines.
Resistance force is the force which an effort force must overcome in order to do work on an object via a simple machine. Resistance force, like most other forces, is measured in newtons or in pound-force. Resistance force is used to calculate the work output using the equation: Work output = Resistance force * resistance distance
The mechanical advantage is given by the ratio of resistance force to effort force. It represents the factor by which a simple machine multiplies the force applied to it. Mathematically, it can be calculated as mechanical advantage = resistance force / effort force.
The formula to find resistance force is given by R = F/A, where R is the resistance force, F is the force applied, and A is the area over which the force is applied. This formula is often used in physics and engineering to determine the resistance force in various scenarios.
frition force act on it
Friction is the force that resists the motion of an object when it is in contact with another object or surface. It occurs due to the irregularities in the surface of objects, which causes resistance as they slide against each other.
Gravity is the main resistance force on any aircraft. Wind resistance would be second.
Effort force is the force applied to overcome resistance force in order to move an object, while resistance force is the force that opposes the motion of an object. Effort force acts in the direction of motion, whereas resistance force acts in the opposite direction. The ratio of effort force to resistance force is a measure of mechanical advantage in simple machines.
Resistance force is the force which an effort force must overcome in order to do work on an object via a simple machine. Resistance force, like most other forces, is measured in newtons or in pound-force. Resistance force is used to calculate the work output using the equation: Work output = Resistance force * resistance distance
Yes resistance would be a push force.
frition
The mechanical advantage is given by the ratio of resistance force to effort force. It represents the factor by which a simple machine multiplies the force applied to it. Mathematically, it can be calculated as mechanical advantage = resistance force / effort force.
The formula to find resistance force is given by R = F/A, where R is the resistance force, F is the force applied, and A is the area over which the force is applied. This formula is often used in physics and engineering to determine the resistance force in various scenarios.
The ratio of resistance force to effort force is equal to the mechanical advantage of a simple machine. This ratio indicates how much the machine amplifies the input force to overcome resistance. It is calculated as the ratio of the distances from the fulcrum to the points where the effort force and resistance force are applied.
The force that overcomes resistance is typically referred to as the "net force." Net force is the vector sum of all forces acting on an object and determines how the object accelerates. When the net force is greater than the resistance force, the object will overcome the resistance and accelerate in the direction of the net force.
because it is resistant to the led lights and Mercury