Torque
Internal labour supply.
To find the mechanical advantage of a simple machine divide output force by input force. (input force is the force that we exert on a machine, and output force is the force that is exerted by a machine).
That will depend on the internal resistance of the battery. I = E / R Where I is the current, E is the open circuit battery voltage, and R is the internal resistance of the battery.
That would depend on what type of boiler inspection INTERNAL or EXTERNAL or 5 year hydrostatic test
A screw is an inclined plane, twisted to serve a particular purpose. Along with the lever (a wheel is a circular lever) that and the inclined plane were the first two inventions achieved by mankind, as far as we know.
it could not exist
To withstand an internal force of 1200 psi, the acrylic would need to be at least 1 inch thick. Acrylic typically has a tensile strength of around 10,000 psi, so a 1-inch thickness would comfortably handle the 1200 psi force.
Yes for the PSP it would be "Twisted Metal: Heads On"
Internal control would be judged as effective if its components are present and function effectively for operations, financial reporting, and compliance.
Any external or internal force acting on an object would be represented as a force arrow in a free-body diagram. For example, forces like gravity, friction, tension, and normal force would all be depicted with force arrows in a free-body diagram.
If gravity is the only force present, the total force acting on an object would be its weight, which is the force of gravity pulling it towards the center of mass of the larger body (like Earth). The weight is given by the formula: weight = mass x gravity.
It depends on the situation. Common forces include gravitational force, normal force, tension force, frictional force, and applied force. The next force acting on an object would be determined by the environment and other objects present.
The main IM force in HCN would be dipole-dipole and secondary would be dispersion.
If I could answer the question, than why would I be looking for question's solution on this site.
A force exactly equal to the weight of your posterior against the chair. You know positively that the forces there must exactly cancel and add to zero, otherwise a net, non-zero force would be present, and your butt would accelerate.
The force required to lift a pencil off a desk is the gravitational force acting on the pencil. When you lift the pencil, you are exerting an upward force that overcomes the force of gravity pulling the pencil downward.
Yes, the frictional force acts on objects that are not moving, opposing the motion that would occur if there were no friction present. This static friction force prevents the object from moving until a force greater than the static friction force is applied.