The Executive Branch, specifically the president. He is the "commander-in-chief."
The administrative arm of government is called the executive branch. The executive branch is headed by the President.
The Executive Branch
That's no so easy to answer. The Army has the largest ground branch. However, the Navy has a subordinate ground branch (the Marine Corps), an air arm, plus a sea arm. The Air Force has the largest air arm of all the branches. The Navy and Air Force both have the capacity to launch nuclear weapons. They all have their strengths in their respective areas.
Pulling down a branch from its free end is easier because this position maximizes the lever arm distance from the pivot point (the branch's attachment to the tree). The force applied at the end creates a greater torque compared to applying the same force closer to the trunk, where the lever arm is shorter. This results in less force being needed to overcome the branch's resistance and allows for more effective bending.
The force that pushes on one arm of a lever is called the effort force. This force is applied to overcome the resistance force, which is the force exerted by the load on the other arm of the lever. The lever then magnifies the effort force to lift or move the load.
branch, arm
The force advantage for levers is the factor by which a lever multiplies the input force applied to it. This advantage is determined by the ratio of the distances from the fulcrum to the point where the input force is applied (effort arm) and the point where the output force is exerted (load arm). The longer the effort arm compared to the load arm, the greater the force advantage.
right arm
The answer is the force
Divide the length of the force arm by the length of the resistance arm.
In a lever, the product of effort and effort arm is called Moment of effort and product of load and load arm is called Moment of load. In general case, as asked in the question, "The Product of force and lever-arm distance is called Moment of Force"the Moment of Force isn't correct its {Torque}
The formula for moment arm is distance between the point of rotation and the line of action of the force. Mathematically, it can be represented as the cross product of the position vector and the force vector.