About 10.2 kg . (rounded)
100 N is a force. An object of mass about 10.2Kg would experience a gravitational force of 100N.
The mass of the object is 20 kg. This is calculated by dividing the force (100 N) by the acceleration (5 m/s^2) using the formula F = ma.
If the child weighs 100 N on Earth, then his mass is about 10.2 kilograms.
Using the formula F = ma, where F is the net force, m is the mass, and a is the acceleration, we can rearrange the equation to solve for mass: m = F/a. Plugging in the values given (F = 100 N, a = 5 m/s^2), we find that the mass of the object is 20 kg.
F = ma, so we have 100 = m x 5, so m = 20 kg.
100 N is a force. An object of mass about 10.2Kg would experience a gravitational force of 100N.
The notation "n-100" refers to a neutron with a mass number of 100. Since neutrons do not have a defined atomic number, we can infer that the mass number (100) represents the total number of protons and neutrons in the nucleus of an atom. However, as "n" indicates a neutron and has no protons, "n-100" would simply have 100 neutrons.
980 N
1oo g is 100 g.
The mass of the object is 20 kg. This is calculated by dividing the force (100 N) by the acceleration (5 m/s^2) using the formula F = ma.
If the child weighs 100 N on Earth, then his mass is about 10.2 kilograms.
Nitrogen has an average atomic mass of about 14 while hydrogen has an average atomic mass of about 1, so the total molecular mass of NH3 is about 17. From this we find that the mass percentage of N in NH3 is about 14/17 = 82%. To get more precise numbers, look up the exact atomic masses from a periodic table.
Using the formula F = ma, where F is the net force, m is the mass, and a is the acceleration, we can rearrange the equation to solve for mass: m = F/a. Plugging in the values given (F = 100 N, a = 5 m/s^2), we find that the mass of the object is 20 kg.
F = ma, so we have 100 = m x 5, so m = 20 kg.
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F = maIf you know the net force and the mass, you can determine the acceleration by manipulating the equation such that a = F/m.a = 25N/100kg = 0.25m/s2
An object with a smaller mass will experience a greater acceleration when acted upon by a net force of 100 N, according to Newton's second law. Thus, an object with a smaller mass will have the greatest acceleration under the given force.