stu12345 said:Well each object in contact with a flat surface will have equal masses just different surface areas. I'm using a same flat surface for each object with equal masses but different surface areas.
stu12345 said:Ya it would have area.
rock.freak667 said:No, it would not, if Fn=mg and Ff=μFn then area does not appear.
Once your materials are the same, then μ is the same and if the masses are the same, then the frictional force produced by them are the same, regardless of area.
Surface area is the total area of the outer surface of an object. It is typically measured in square units, such as square inches or square meters.
The formula for calculating surface area varies depending on the shape of the object. For example, the surface area of a cube is calculated by multiplying the length of one side by itself and then multiplying that result by 6 (since a cube has 6 sides).
Friction is a force that resists motion between two surfaces that are in contact with each other. It is caused by the microscopic irregularities on the surfaces that make it difficult for them to slide past each other.
In general, the larger the surface area of an object, the greater the friction it will experience. This is because a larger surface area means there are more microscopic irregularities that can interact and create resistance to motion.
Understanding surface area and friction is important in various fields such as engineering, sports, and manufacturing. For example, engineers need to consider surface area and friction when designing efficient machines and structures. Athletes need to understand friction to improve their performance in sports. Manufacturers need to consider friction when designing products to ensure they function properly and safely.