Normal Force on Extended Block: Physics Explained

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In summary, the normal force between an extended block and a frictionless surface is a simplified model that depends on the flatness of the surfaces. It can be modeled as a distributed force, acting at a point, on a line, or at multiple points depending on the setup and calculation. In simple problems, such as a block sliding down a slope, we assume a single force acting through the center of mass. The coefficient of friction accounts for any complications from non-flat surfaces. For tipping over problems, the normal force may be modeled as acting along one edge. Keep in mind that for frictionless surfaces, any force between them must be perpendicular to the surface.
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Jon Drake
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Suppose there is an extended block lying on a frictionless surface. The surface will exert a normal force on block. Will the normal force act at one particular point on the block, or will it act along the entire length of block?
 
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The Normal Force is a simplified model of how the block and surface interact. In practice it depends how flat the block and surfaces are. A warped piece of wood might only make contact at say three corners. A very soft rubber block would make a more uniform contact.

Depending on the exact set up and what you are trying to calculate you might need to model and/or position the normal force differently, for example as either:

a distributed force or
acting at a point
acting on a line
acting at a number of individual points.

For most simple problems such as block sliding down a slope we assume a single force acting through the centre of mass. Any complication due to the block or surface not being exactly flat is hidden in the coefficient of friction (which is typically found by experiment rather than calculated).

For something like a box being tipped over we might model the normal force as acting along one edge (which would be the case just after it starts to tip).

If you have a particular problem in mind perhaps post details.
 
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PS You mention the frictionless case. The key thing to understand with frictionless surfaces is that any force between them must be perpendicular/normal to the surface.
 

Related to Normal Force on Extended Block: Physics Explained

1. What is the normal force on an extended block?

The normal force on an extended block is the force exerted by a surface on the block that is perpendicular to the surface. It is often represented by the symbol "N" and is equal in magnitude but opposite in direction to the force the block exerts on the surface.

2. How is the normal force calculated?

The normal force can be calculated using the formula N = mg + ma, where m is the mass of the block, g is the acceleration due to gravity, and a is the acceleration of the block. This formula takes into account the weight of the block and any additional accelerations acting on it.

3. What factors affect the normal force on an extended block?

The normal force on an extended block is affected by the weight of the block, the angle of the surface it is resting on, and any additional forces acting on the block. It is also dependent on the coefficient of friction between the block and the surface.

4. Is the normal force always equal to the weight of the block?

No, the normal force is not always equal to the weight of the block. It is only equal to the weight when the block is on a horizontal surface and there are no other forces acting on it. If the surface is inclined or there are additional forces, the normal force will be different from the weight.

5. How does the normal force affect the motion of the extended block?

The normal force affects the motion of the extended block by providing a counteracting force to the weight of the block. It keeps the block in equilibrium and prevents it from sinking into the surface or falling through it. If the normal force is greater than the weight, the block will accelerate upwards, and if it is less than the weight, the block will accelerate downwards.

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