The weight of a standard object defined as having a mass of exactly 2.9 kg is measured to be 28.449 n. in the same laboratory, a second object weights 48.7 n. what is the mass of the second object? answer in units of kg

Question

Physics

Macey

12 December, 20:03

The weight of a standard object defined as having a mass of exactly 2.9 kg is measured to be 28.449 n. in the same laboratory, a second object weights 48.7 n. what is the mass of the second object? answer in units of kg

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Answers (2)

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Caylee Wang · Answer 1

Mass of the object m = 2.9 kg

Force F1 = 28.449 N

F1 = m1 x a = > a = F / m = > 28.449 / 2.9 = > a = 9.81, which is gravitational acceleration.

In the same lab, a = g = 9.81, second object F2 = 48.7N = m2 x a

m2 = F2 / a = > 48.7 / 9.81 = > m2 = 4.96 kg

Mass of the second object m2 = 4.96 kg

Kibbles · Answer 2

If the units is expressed in terms of Newtons, that's a unit of force. The relationship between force and mass is Newton's Second Law of Motion.

F = ma

In this case, a is the acceleration due to gravity. Let's solve a first.

28.449 N = (2.9 kg) (a)

a = 9.81 m/s²

We use this to find the m of the second case.

F = ma

48.7 N = m (9.81 m/s²)

m = 4.96 kg