The strength of the force of friction depends on the types of surfaces involved and on how hard the surfaces push together.
The force of friction is the product of the normal (perpendicular) force, and a coefficient of friction. The coefficient of friction is dependent on the materials that are in contact.
The force of friction is the product of the normal (perpendicular) force, and a coefficient of friction. The coefficient of friction is dependent on the materials that are in contact.
The force of friction is the product of the normal (perpendicular) force, and a coefficient of friction. The coefficient of friction is dependent on the materials that are in contact.
The force of friction is the product of the normal (perpendicular) force, and a coefficient of friction. The coefficient of friction is dependent on the materials that are in contact.
Gravitational pull and Air Resistance.
Hope this helped, Lovetta...
Friction= Normal force* Coefficient of friction
Normal Force
Roughness
Area of Contact
The force of friction is the product of the normal (perpendicular) force, and a coefficient of friction. The coefficient of friction is dependent on the materials that are in contact.
Mass and velocity.
Sliding
normal force acting between them and surface roughness or frictional value that is mieu.
There are two factors that affect the gravitational attraction between two objects. The mass of each object and the distance between their centers of mass are the factors that affect the attraction.
Speed, friction, momentum, and conservation of motion
The Major Factors That Affect The Amount Of Water Runoff In An Area Are: - amount of vegetation and non-permeable surfaces (development) - slope of land (grade) - duration and rate of rainfall - nature of ground (soil type) - soil saturation (moisture)
Smoother surfaces make the car take longer to stop vs rough surfaces. This is because the car is not able to gain enough traction on smooth surfaces.
The coeffient of friction. The force holding the 2 surfaces together.
mass and velocity
Mass and velocity.
Mass And Velocity
How rough it is and how heavy it is.
Cohesive or Adhesive force between the two objects.
1. The Coefficient of friction between the two surfaces. 2. The force applied bringing the two surfaces together.
how hard the surfaces push to gether the types of surfaces involved
mass and velocity
The rougher a surface is, the higher the coefficient of static and kinetic friction will be.
The magnitude of the frictional force is directly proprotional to the normal reaction between the two surfaces.(2)Magnitude of the frictional force is independent of shape and area of the surfaces
Force pushing two surfaces together