The bell acts on the suspension with a force of 4900 N. Determine the mass of the bell.

Let’s write down the literal expression of the gravity formula in which:

F is the force of gravity with which the bell acts on the suspension (according to the condition of the problem, 4900 N);
m is the mass of the bell (the required argument);
g – gravity constant (9.8 m / s ^ 2).
Since the force of gravity is the product of the mass of an object by the constant of gravity, the mass will be equal to the ratio of the force of gravity to the constant of gravity.

F = m * g.

m = F / g.

Substitute the values from the condition and get:

m = 4900 / 9.8 = 500 kg.


Bell weight 500 kg.

One of the components of a person's success in our time is receiving modern high-quality education, mastering the knowledge, skills and abilities necessary for life in society. A person today needs to study almost all his life, mastering everything new and new, acquiring the necessary professional qualities.