Speed, shape and frontal cross-section.
The factors that can affect the amount of friction acting on an object on a solid surface include the roughness of the surface, the weight or normal force pressing the object onto the surface, and the types of materials in contact. Additionally, the presence of lubricants or contaminants can also influence friction.
The three factors that affect the amount of air resistance on an object are the object's speed (faster speed leads to higher air resistance), the object's size and shape (larger or less streamlined shapes experience higher air resistance), and the air density (higher air density increases air resistance).
The amount of air resistance acting on an object depends on its speed (faster speeds result in greater air resistance) and its surface area (larger surface area increases air resistance).
the smoothness othe surface the object is acting on, and direction its going in
Objects move in different ways and at different speeds due to a combination of factors such as their mass, the amount of force acting on them, and any friction or resistance they encounter. Objects with lower mass and less resistance can generally move faster than heavier objects with more resistance. Additionally, the amount of force applied to an object can also affect its speed and movement.
shape, size, and speed
shape, size, and speed
Speed, shape and frontal cross-section. Viscosity, texture, friction, gravity, velocity, size, and shape can all affect air resistance.
Speed, shape and frontal cross-section. Viscosity, texture, friction, gravity, velocity, size, and shape can all affect air resistance.
The factors that can affect the amount of friction acting on an object on a solid surface include the roughness of the surface, the weight or normal force pressing the object onto the surface, and the types of materials in contact. Additionally, the presence of lubricants or contaminants can also influence friction.
The three factors that affect the amount of air resistance on an object are the object's speed (faster speed leads to higher air resistance), the object's size and shape (larger or less streamlined shapes experience higher air resistance), and the air density (higher air density increases air resistance).
The amount of air resistance acting on an object depends on its speed (faster speeds result in greater air resistance) and its surface area (larger surface area increases air resistance).
the smoothness othe surface the object is acting on, and direction its going in
Objects move in different ways and at different speeds due to a combination of factors such as their mass, the amount of force acting on them, and any friction or resistance they encounter. Objects with lower mass and less resistance can generally move faster than heavier objects with more resistance. Additionally, the amount of force applied to an object can also affect its speed and movement.
It depends on the shape of the object.
The two factors that affect the amount of force an object has are the object's mass and the acceleration acting on it. Force is calculated using the formula: force = mass x acceleration. Increasing the mass of an object or the acceleration it experiences will result in an increase in the force exerted.
The factors that affect the resistance of a conductor are the material it is made of, the length of the conductor, the cross-sectional area of the conductor, and the temperature of the conductor. Materials with high resistivity, longer lengths, smaller cross-sectional areas, and higher temperatures will have higher resistance.