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math_04 said:The angle remains 26 and not 64. So Fgx = mass x gravity x sin theta where theta is 26 degrees.
The Cart, Incline, Pulley, and Acceleration Experiment is an experiment commonly used in physics to study the relationship between mass, force, and acceleration. It involves a cart on an inclined plane connected to a pulley system, with various weights added to the cart to measure its acceleration.
The purpose of this experiment is to demonstrate the principles of Newton's Second Law of Motion, which states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.
The acceleration of the cart can be calculated by dividing the net force acting on the cart by its mass. This can be done by measuring the distance and time it takes for the cart to travel down the inclined plane, and using the formula a = (2d)/(t^2), where d is the distance and t is the time.
There are several factors that can cause the acceleration of the cart to be inconsistent or "messed up". These include friction between the cart and the inclined plane, air resistance, imperfections in the surface of the inclined plane, and errors in measurement.
The principles learned from this experiment can be applied in various real-life situations, such as understanding the motion of vehicles on inclined roads or the acceleration of objects in free fall. It can also be used to design and improve various machinery and equipment that rely on the relationship between mass, force, and acceleration.