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∙ 11y agoHAHHAHA. Ask ma'am payos and sir Boomax :)
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∙ 11y agoYes, if the weight of the hangers were exactly the same, their contribution to the forces acting on the system could be neglected in the computations. This is because the equal weights would create equal and opposite forces, leading to a balanced system where their effects cancel each other out.
The force pulling downwards on the pan and weights is the force of gravity. This force is acting on all objects with mass towards the center of the Earth.
The main forces acting on a weightlifter lifting weights are the gravitational force pulling the lifter and weights downward, the normal force supporting the lifter from the ground, and the force exerted by the lifter to lift the weights against gravity. Additionally, there may be frictional forces between the lifter's body and the weights or the ground.
gravity
force of friction in air and force of gravity downward.
No, the other way around: all weights are forces. The word "weight" is used for one specific type of force: the force of attraction due to gravity.
The forces acting on the weight lifter and the weights are balanced when the weight lifter is holding the weights stationary. The force exerted by the weight lifter is equal and opposite to the force of gravity acting on the weights.
how transform the formula of power is force is required explain
To calibrate a force gauge, you typically need a calibration kit with known weights. Apply the known weights to the force gauge and adjust it to match the reading on the weights. Repeat this process for different weight loads to ensure accuracy across the gauge's range. It is recommended to follow the manufacturer's instructions for calibration to maintain the tool's accuracy.
Yes, objects with large masses tend to have large weights due to the force of gravity acting on them. Weight is a measure of the gravitational force acting on an object due to its mass.
To use a force table, you first set up the apparatus with the force vectors you want to analyze. Then, adjust the angles and magnitudes of the forces by moving the pulleys and adding weights until the system is in equilibrium. Finally, measure the angles and weights to calculate the resultant force and verify the equilibrium condition.
A balance scale compares the weights of two objects using gravitational force. It relies on the gravitational pull on the objects to determine their relative weight and balance.