The power vs force graph shows that as power increases, force also tends to increase. This indicates a positive relationship between the two variables, where higher levels of power are associated with higher levels of force.
The friction force vs normal force graph shows that there is a direct relationship between the friction force and the normal force. As the normal force increases, the friction force also increases. This indicates that the friction force is proportional to the normal force.
The friction vs normal force graph shows that there is a direct relationship between friction and the normal force. As the normal force increases, the friction force also increases. This indicates that the friction force is dependent on the normal force acting on an object.
The frictional force vs normal force graph shows that there is a linear relationship between the two forces. As the normal force increases, the frictional force also increases proportionally. This indicates that the frictional force is directly proportional to the normal force.
The friction graph shows that as surface roughness increases, the force required to overcome friction also increases. This indicates that there is a positive relationship between surface roughness and the force needed to overcome friction.
Acceleration is dependent on both the force acting on an object and the mass of the object. The relationship between force, mass, and acceleration is described by Newton's second law of motion, which states that acceleration is directly proportional to the net force acting on an object and inversely proportional to its mass. Mathematically, the relationship can be represented as a = F/m, where a is acceleration, F is force, and m is mass.
The friction force vs normal force graph shows that there is a direct relationship between the friction force and the normal force. As the normal force increases, the friction force also increases. This indicates that the friction force is proportional to the normal force.
The friction vs normal force graph shows that there is a direct relationship between friction and the normal force. As the normal force increases, the friction force also increases. This indicates that the friction force is dependent on the normal force acting on an object.
The frictional force vs normal force graph shows that there is a linear relationship between the two forces. As the normal force increases, the frictional force also increases proportionally. This indicates that the frictional force is directly proportional to the normal force.
The friction graph shows that as surface roughness increases, the force required to overcome friction also increases. This indicates that there is a positive relationship between surface roughness and the force needed to overcome friction.
Acceleration is dependent on both the force acting on an object and the mass of the object. The relationship between force, mass, and acceleration is described by Newton's second law of motion, which states that acceleration is directly proportional to the net force acting on an object and inversely proportional to its mass. Mathematically, the relationship can be represented as a = F/m, where a is acceleration, F is force, and m is mass.
The static friction graph shows that there is a direct relationship between the force applied to an object and the frictional resistance it experiences. As the force increases, the frictional resistance also increases until a maximum value is reached, after which the object starts moving.
well the relationship between mass and force is..........*relationship... Force=mass x acceleration
Normal Force
Pressure = Force/Area
The two variables that affect the force of gravity are the mass of the objects involved and the distance between them. The force of gravity increases with the mass of the objects and decreases with the distance between them.
The relationship between the two is, the bigger the wedge, the less force you need and the smaller the wedge, the more force you need.
Pressure = Force/Area.