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How do you xxplain why you turn the nut at the top of the force gauge after the load is applied?
Wiki User
∙ 13y ago
The reason for turn the nut after the load applied is to get the right and accurate reading at the Digital Force Display and to ensure the Structure Test Frame is stable.
Wiki User
∙ 13y ago
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Which direction will the load move if the force applied to the rope is greater than the force of gravity on the load?
I assume this is not a trick question of like the rope is not taut. If the rope is taut, the load will move to the combined force of the applied force and gravity, in the vector sense. In the simple case of the applied force being directly opposite to gravity, the load will rise straight up from the ground. If the applied force is perpendicular to gravity (that is, horizontal), the load will drop to the ground at an angle, depending on the sum of the two force vectors.
What is the input and output of a load cell?
The input of a load cell is the force or weight applied to it. The output of a load cell is an electrical signal, typically in the form of voltage or current, that is proportional to the applied force or weight.
When a fixed pulley is used what does the force and the load do?
A fixed pulley allows the direction of the applied force to be varied. It does not change the load.
What is the relationship between the applied load and the force?
The relationship is linear. Nothing more can be said without more information in the question.
Whats the definition of load as it applies to levers?
the weight of the force being applied.
What is the difference between axial load and radial load?
Axial load (or thrust load) is a force applied parallel to the longitudinal axis, whereas, a radial load is a force applied transverse to this longitudinal axis.
What is the difference between shock load and gradually applied loads and suddenly applied Load?
The only difference between a shock load and a gradually applied load is something called an impulse; defined as the integral of a force with respect to time. When a force is applied to a rigid body it changes the momentum of that body. A small force applied for a long time can produce the same momentum change as a large force applied briefly, because it is the product of the force and the time for which it is applied that is important.
Which direction will the load move if the force applied to the rope is greater than the force of gravity on the load?
I assume this is not a trick question of like the rope is not taut. If the rope is taut, the load will move to the combined force of the applied force and gravity, in the vector sense. In the simple case of the applied force being directly opposite to gravity, the load will rise straight up from the ground. If the applied force is perpendicular to gravity (that is, horizontal), the load will drop to the ground at an angle, depending on the sum of the two force vectors.
What is the input and output of a load cell?
The input of a load cell is the force or weight applied to it. The output of a load cell is an electrical signal, typically in the form of voltage or current, that is proportional to the applied force or weight.
When a fixed pulley is used what does the force and the load do?
A fixed pulley allows the direction of the applied force to be varied. It does not change the load.
What is the relationship between the applied load and the force?
The relationship is linear. Nothing more can be said without more information in the question.
What happens when a load is applied to the beam?
when the load is applied in the beam then deflection takes place. the nature of the deflection depends on the support provided on it
Which bearing can withstand both thrust and radial?
The “load” is the force applied to a bearing. The “radial load” is the force applied perpendicular to the shaft. The “axial load” is the force applied in the same direction as the shaft. Deep groove ball bearings sustain both radial load and axial load coming from both directions at the same time.
How did shear force varies when applying increase load at same point?
In direct proportion to the load applied.
What are the 3 classes of levers?
Levers are classified into three types (first-class, second-class, and third-class) depending on the relative position of the fulcrum (pivot point), the point of applied (input) force, and the location of the load (output force). In a first-class lever, the fulcrum is between the input force and the output force, and the load is moved in the opposite direction of the applied force. Placing the fulcrum closer to the load gives an advantage of force (less force needed to move the load a shorter distance), while a fulcrum closer to the point of applied force gives an advantage of distance (the load is moved a greater distance but more applied force is needed). First-class levers include a crowbar, using a hammer's claw end to remove a nail, and a pair of scissors. In a second-class lever, the load is between the fulcrum and the point of applied force, so both forces move in the same direction. Less force is needed to move the load, but the load does not move as far as the direction over which the input force must be applied. Examples include the wheelbarrow, a bottle opener, and a door on its hinges. In a third-class lever, the input force is applied between the fulcrum and the load, and both move in the same direction. The amount of applied force is always greater than the output force of the load, but the load is moved a greater distance than that over which the input force is applied. Examples include a hammer driving a nail and the forearm of a person swinging a baseball bat. If you want to find out any more, go to: http://www.technologystudent.com/forcmom/lever1.htm :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :) :)
What actually happens when load is applied to the beam and why does this condition occur?
the beam gets bend if the load is more then the resisting force of the beam and if the resisting force is more then the load it doesn't bends.
What over comes gravity to lift a load?
A force greater than the weight of the load,applied to it in the upward direction, does.
