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How to calculate force F

Publish: 2021-03-22 22:07:01
1.

1. Gravity g = mg

(vertically downward, g = 9.8m/s2 ≈ 10m / S2, the action point is at the center of gravity, applicable to the earth surface)

2. Hooke's law f = KX

{along the recovery deformation direction, K: stiffness coefficient (n / M), X: deformation variable (m)}

3. Sliding friction force F = μ FN

{opposite to the relative motion direction of the object, μ: Friction coefficient, FN: positive pressure (n)}

{rrrrrrr}

extended data:

different classification of force

1. According to the nature of force, it can be divided into gravity, universal gravitation, elastic force, friction force, molecular force, electromagnetic force, nuclear force, etc Note that gravity is not equal to gravity under all conditions Gravity does not point to the center of the earth under all conditions. Gravity is a component of the earth's gravitational force on an object, and the other component is a centripetal force. Only on the equator does gravity point to the center of the earth.)

According to the effect of force, it can be divided into tension, tension, pressure, supporting force, power, resistance, centripetal force, restoring force, etc

According to the research object, it can be divided into external force and internal force

According to the action mode of force, it can be divided into non-contact force (such as gravitation, electromagnetic force, etc.) and contact force (such as elastic force, friction force, etc.)

There are four basic interactions (forces): gravitational interaction, electromagnetic interaction, strong interaction and weak interaction

nature of force:

materiality: force is the effect of an object (matter, mass) on an object (matter, mass). When an object is subjected to a force, another object must exert this effect on it. Force cannot exist independently without an object

interactivity (interaction): the interaction between any two objects is always mutual, and the object exerting the force must also be the object under the force. As long as one body exerts a force on another, the stressed body in turn will surely add a force to the exerted body Generating conditions: the force is equal in size (the resultant force is zero, in a state of non directional static motion) or not equal, in the opposite direction, acting on two different objects, and acting on the same straight line. It can be summarized as: foreign body, equivalent, reverse, collinear. A pair of interaction forces must proce and disappear at the same time.)

Vectoriality: force is a vector, which has both magnitude and direction

simultaneity: the force proced and disappeared at the same time

independence: the effect of one force does not affect the effect of another

includes three elements: the size, direction and action point of the force. The accurate expression of the three elements of force by a directed line segment is called the diagram of force. The size is represented by the length of a scaled line segment, the direction is represented by an arrow, the point of action is represented by an arrow or the tail of an arrow, and the straight line along which the direction of a force follows is called the line of action of a force. The diagram of the force is used for the calculation of the force. When the judgment power is large, we must pay attention to the scale of the line segment, because even if one line segment is longer than another line segment, but the scale of the long line segment is also longer, the force represented by the short line segment is not necessarily smaller than that represented by the long line segment

2. There are many ways to find the pulling force... And it depends on the situation. If it is according to Newton's third law, the acting force is equal to the reaction force... Another formula is f = m * a, and there are some cases
I'm glad to answer for you. Please adopt it
3. Do you mainly calculate the resistance of the bearing? This force is hard to calculate
4. The density of mercury is 13.6g/cm ^ 3, and the density of iron block is 7.9g/cm ^ 3. If the quantity of mercury is enough, the iron block will have v row = 13.6 / 7.9 * V immersed in mercury, but in fact, the depth of mercury is only 3cm, so the iron block still has a certain pressure on the bottom of the container.
the actual size of floating force on the iron block is: F floating = density of mercury * g * (3cm * 8cm * 8cm) = 26n
5. Suppose that the sliding friction coefficient is U1 and the static friction coefficient is U2, then f = U2 * 3000 * g (Newton) will push it, then f = U1 * 3000 * g
it is the same on a small slope, only f = F + G * sin (5)
6. 1. In the equilibrium state f = f friction
2, f = mg
3, f = w / s
need specific analysis
7. W = FS, W is the work, f is the force, s is the distance that the force moves on a section
8. There is no specific formula to calculate the pulling force. If it moves horizontally and uniformly, the pulling force is equal to the sliding friction; If you move at a uniform vertical velocity, the pull is equal to gravity
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