Yes, it is possible for the coefficient of friction to exceed 1 in a given scenario. This can happen when the force required to move an object is greater than the force pressing the object against the surface, resulting in a coefficient of friction greater than 1.
Yes, it is possible for the coefficient of static friction to exceed 1. This means that the force required to overcome static friction is greater than the force pressing the surfaces together.
Yes, it is possible for the coefficient of kinetic friction to exceed a value of 1. This means that the force required to overcome the friction and move an object is greater than the force pressing the object against the surface.
Yes, a coefficient of friction can exceed 1. This can happen in cases where the force required to move an object is greater than the maximum force that can be provided by the contact surface. This would result in a coefficient of friction greater than 1.
True -It's "False"!
According to our current understanding of physics, it is not possible for objects with mass to travel faster than the speed of light. This is because as an object with mass approaches the speed of light, its energy and mass increase infinitely, making it impossible to reach or exceed the speed of light.
Yes, it is possible for the coefficient of static friction to exceed 1. This means that the force required to overcome static friction is greater than the force pressing the surfaces together.
Yes, it is possible for the coefficient of kinetic friction to exceed a value of 1. This means that the force required to overcome the friction and move an object is greater than the force pressing the object against the surface.
Yes, a coefficient of friction can exceed 1. This can happen in cases where the force required to move an object is greater than the maximum force that can be provided by the contact surface. This would result in a coefficient of friction greater than 1.
A correlation coefficient cannot exceed 1.
the equation for static friction coefficient is:static friction coefficient = force required to break bond / weight of object (tire)you need the friction coefficient between rubber and grass, say its 0.5, this means the force you have to apply to equal the friction force is:0.5 = x / 30x = 0.5 * 30x = 15 lbs fanything greater than 15 lbs f will break the bond and accelerate the tire.notes :1 / moving friction coefficient is usually less than static friction coefficient, so youve less drag once its moving.2 / friction coefficients are never greater than 1.0actually , some friction coefficients do exceed 1.0 , see google / friction coefficients table
True -It's "False"!
It is possible that your servers would be slowed if you exceed the RAM on your machine.
it has to do with gravity, weight, friction, torque, and force..... simply put your lateral force (pushing from the side) has to exceed the friction caused by the box and the surface its on
One aim is to be able to fulfill their customers needs and exceed them if possible.
No. The absolute value of the sin function cannot exceed 1.
Rolling coefficients of friction between hard wheels and solid smoth surfaces of the kind that you describe, are usually very small and below 0.02 . The friction force is this number multiplied by the weight carried by the skate-board so it would not exceed 4 lb. However to answer the question fully, hardly anybody finds this friction, most people are not interested in it.
Yes, the coefficient of variation (CV) can be greater than 100%. The CV is calculated as the ratio of the standard deviation to the mean, expressed as a percentage. If the standard deviation is greater than the mean, which can occur in certain datasets, the CV will exceed 100%, indicating high relative variability compared to the average value.