![]() Shackles - Safe Loads Safe loads of shackles.Lifting Wheels Loads and effort force with lifting wheels. ![]() Jet Propulsion Calculate the propulsive discharge force or thrust induced by an incompressible jet flow.Impact Force Impact forces acting on falling objects hitting the ground, cars crashing and similar cases.Hot Air Balloons - Calculate Lifting Weights Calculate hot air ballons lifting forces.Forces and Tensions in Ropes due to Angle Reduced load capacities in ropes, cables or lines - due to acting angle.Force Ratio The force ratio is the load force versus the effort force.Equilibrant Force The force required to keep a system of forces in equilibrium.Disk Brakes - Torque and Force Forces and torque activated with disk brakes.Centripetal and Centrifugal Acceleration Force Forces due to circular motion and centripetal / centrifugal acceleration.Center of Gravity A body and the center of gravity.Center Mass Calculate position of center mass.Bollard Forces Friction, load and effort forces acting in ropes turned around bollards.Bodies Moving on Inclined Planes - Acting Forces Required forces to move bodies up inclined planes.Acceleration Units Converter Converting between units of acceleration.Acceleration of Gravity and Newton's Second Law Acceleration of gravity and Newton's Second Law - SI and Imperial units.Statics Loads - forces and torque, beams and columns.Mechanics Forces, acceleration, displacement, vectors, motion, momentum, energy of objects and more.Dynamics Motion - velocity and acceleration, forces and torque.Beams and Columns Deflection and stress, moment of inertia, section modulus and technical information of beams and columns.The acceleration of the body can be calculated as The resulting acceleration force - F a - which moves the body upwards - can be calculated by subtracting the weight of the body from the cable force as The gravity force weight - W - pulling the body downwards due to the gravity - can be calculated as The force in the hoisting cable is F c = 700 N. The calculator below can used to calculate force due to mass and acceleration:Ī body with mass m = 60 kg is hoisted by a winch. = 0.4905 N Acceleration of Gravity on Earth The gravity force - weight - on a apple with mass 50 g (0.050 kg) due to acceleration of gravity a g = 9.81 m/s 2 - can be calculated as = 100 N Example - Force due to Gravity (Weight) If the forces are balanced the body will not accelerate.Ī mass of 50 kg is accelerated with 2 m/s 2. If there is a net unbalance between forces acting on a body the body accelerates. Surface forces at supports or points of contact between bodies are called reactions. Examples - gravitation or electromagnetic fields. ![]() ![]()
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