Nm means Nothing Much.
Is used when somebody asks you Wuu2 (what you up too) and you say Nothing Much.
Technically that is true, but a more relivent answer would be Nm=Newton meters.
NM-2 refers to "nanometer squared," a unit of area used to measure the size of features in Nanotechnology or nanoscience. It represents the square of a nanometer, which is one billionth of a meter. Measurements in nm-2 are often used to describe the size of nanostructures or patterns on nanoscale materials.
the term of nm is nothing much that is wen ur on msn other wise i dont no
An Nm is most probably "Newton- meter" a measure of force applied, like foot- pound.
nm-2 could be one way of indicating in plain text the unit of measure for area that is square nanometers.
× 10
-9
Ωm
What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.
The gravitational force between 2 objects depends on the masses of the objects and the distance between them. Links are provided. Newton's Law says, Force = Gravitational constant x mass of 1st object x mass of 2nd object / distance squared. F=Gm1m2 / d2 Where G=6.672 x10-11 Nm2/kg2 What this means in plain English is that the greater masses pull more on each other more than smaller masses, and the force decreases exponentially as distance increases.
The gravitational force acting on an electron in a hydrogen atom is negligible compared to the electromagnetic forces between the electron and the nucleus. The electromagnetic forces, specifically the electrostatic attraction between the positively charged nucleus and the negatively charged electron, are the dominant forces that determine the stability and behavior of the electron in the atom.
The law of conservation of gravity states that the gravitational force between two objects remains constant unless the distance or masses of the objects change. This means that the total amount of gravitational force within a system is constant and cannot be created or destroyed.
Divide by 10000
Navitel Navigater
6.67*10-11 Nm2 Kg-2
The work done on the gas during compression is given by the formula W = PΔV, where P is the average pressure and ΔV is the change in volume. So, the work done on the gas during compression is (1123000 + 2445000)/2 * (20.81 - 11.25) = 10600475 J. Since no heat is transferred to the environment and the process is adiabatic, the change in internal energy of the gas is equal to the work done on the gas, so ΔU = 10600475 J.
What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.What exactly do you mean with nm2? You can't convert a square unit to a linear unit. A meter is 100 centimeters, therefore, a square meter is 100 x 100 = 10,000 square centimeters.
the answer would be 48 m/s
The result of pi x 9.6 nm² x 4.8 nm in scientific notation is approximately 179.52 nm⁴.
The magnitude of the force between the electron and proton in a hydrogen atom can be calculated using Coulomb's Law: F = k * |q1 * q2| / r^2, where k is the Coulomb constant (8.99 x 10^9 Nm^2/C^2), q1 and q2 are the charges of the electron and proton (1.6 x 10^-19 C), and r is the distance between them (52.9 x 10^-12 m). Plugging in these values, the magnitude of the force between the electron and proton is approximately 8.2 x 10^-8 N.
There is only one Law of Gravity; any two objects will attract each other with a force which is directly proportional to the product of their masses and inversly proportional to the square of the distance between them. Thus; F=G(M1+M2)/r2 Where G is the gravitational constant expressed as 6.67 *10-11 Nm2/kg2.
The equation for Coulomb's Law is: Force = k(q1q2)/r2k is a constant: 9 x 109 Nm2/C2q1 and q2 are the chargesr is the distance between the two chargesSince the charges are equal and we are solving for the charges, we should rewrite the equation: F = kq2/r2 which means: q = sqrt(Fr2/k)Plug in the given values: q = sqrt[(0.98 N)(0.0029 m)/(9 x 109 Nm2/C2)]q = sqrt(9.1576 x 10-16 C2) (Note: units cancel out)q = 3.026 x 10-8 C (Note: 'sqrt' means 'square root')
At absolute zero, the gas molecules stop moving, hence no pressure is exerted by the gas. This is known as absolute zero pressure.
The Strength of the force of gravitation between two objects increases as the mass of the objects increase.Fg=Gm1m2--------r2Where G is the gravitational constant of any mass, or 6.67259*10-11 Nm2/kg2 and r is the distance between the center of masses of the two objectsTherefore, the magnitude of the force increases as the masses increase