12/6.4=1.9m/sec2
12/6.4=1.9m/sec2
No. Acceleration is proportional to the applied force.
Acceleration is 2m/s^2
To find the acceleration of the ball, you need to use Newton's Second Law, which states that acceleration is equal to the force applied divided by the mass of the object. In this case, the acceleration of the 0.30 kilogram ball that is hit with a force of 25 Newtons would be 83.3 m/s^2.
The acceleration of an object is directly proportional to the force applied to it. This relationship is described by Newton's second law of motion, which states that the acceleration of an object is equal to the force applied to it divided by its mass. Simply put, the greater the force applied to an object, the greater its acceleration will be.
The acceleration of an object is affected by the force applied to it and its mass. Increasing the force applied to an object will increase its acceleration, while increasing the mass of an object will decrease its acceleration for the same force applied.
If the applied force is constant, the acceleration will also be constant. To know the actual amount of acceleration, you divide the force by the mass.
If the force applied to a mass increases, the acceleration will also increase. This is described by Newton's second law of motion (F = ma), where force is directly proportional to acceleration when mass is constant. Conversely, if the force applied decreases, the acceleration will decrease.
the weight of a body is the force exerted by gravity to the body and is proportional to the mass of the body. A force applied to a body will give him an acceleration. The relation between the force f applied to the body, its mass m and the acceleration a is given by Newton's second law of motion ; f = ma The acceleration given by gravity to bodies at sea level is referred to as the standard gravity acceleration and has the value of 9.81 m/s2 (rounded to 3 digits). So, if you have a body with mass 0.5 kg, the weight of it at sea level would be, 0.5 kg x 9.81 m/s2 = 4.9 newtons When a body is subject to the standard gravity acceleration a mass of one kilogram (mass kilogram) weights one kilogram (force kilogram). In the International Units System, the unit for mass is the kilogram and the unit of force is the newton. The force kilogram is avoided as to not produce confusion.
Two things that can affect acceleration are the force applied to an object and the mass of the object. Increasing the force applied will generally result in a greater acceleration, while increasing the mass will generally result in a lower acceleration for the same force applied.
It typically takes about 110-130 Newtons of force to knock over a standard 15-inch-tall bowling pin. This force can vary depending on factors such as the weight of the bowling ball and the angle at which it strikes the pin.