aligass2004 said:That was right. Thank you!
pooface said:Take a look at my thread for a similar problem called "Friction force problem".
You are almost there to solving this. mgcos(14) gives you the normal force. which is perpendicular to the slope. It should also be in mega Newtons.
Look at your formula.
The answer I am getting is 11.866 MegaN. I am studying the samething so. yea.
EDIT: damn i was too late.
Dick said:You are not only late, the answer you gave is pretty wrong. Suggest you figure out why.
To calculate the friction force, you will need to use the formula Ff = µN, where Ff is the friction force, µ is the coefficient of friction, and N is the normal force. To find the normal force, you will need to use the formula N = mgcosθ, where m is the mass of the truck, g is the gravitational acceleration, and θ is the angle of the slope. Once you have found the normal force, you can plug it into the first formula to calculate the friction force.
The coefficient of friction varies depending on the surface of the slope and the materials of the truck's tires. You can find the coefficient of friction by conducting experiments or researching the specific materials involved. For example, the coefficient of friction for rubber on asphalt is typically around 0.7.
The mass of the truck directly affects the normal force, which in turn affects the friction force. The greater the mass of the truck, the greater the normal force, and therefore the greater the friction force. This is because the weight of the truck increases the downward force on the tires, creating more friction between the tires and the slope.
The angle of the slope is important because it affects the normal force, which is a crucial component in calculating the friction force. As the angle of the slope increases, the normal force decreases, resulting in a decrease in the friction force. This is because the steeper the slope, the less weight is pushing down on the tires, reducing the friction between the tires and the slope.
No, the friction force cannot be greater than the weight of the truck. The friction force is limited by the normal force, which is directly related to the weight of the truck. Therefore, the maximum friction force that can be exerted on the truck is equal to its weight. Any additional force would result in the truck sliding down the slope.