In panpsychism, (an "awareness" or "consciousness" of self as opposed to otherness) qualitative ideas (words) through a long history identify a pleasing philosophy but they lack quantitative factors to make it appreciated by science.
Considering that motion and growth are two processes that require the action of energy upon a system in contact with its surroundings in a thermodynamic sense, I am tentatively proposing that the ratio of "kilograms per meter" converts the usual energy of motion (force times distance) to a panpsychistic form that recognizes mass (as energy per mc^2) per distance of space.
(Being developed in the Physics Forum blog with references and hopefully the Institute of Human Thermodynamics web site).
Kilograms times second per meter is a unit of measurement for momentum, which represents the product of mass and velocity. Specifically, it describes how much momentum a moving object has per unit length.
The momentum of the boy is calculated by multiplying his mass by his velocity. Therefore, the momentum of the boy is 160 kilogram meters per second (40 kg x 4 m/s).
The formula for calculating force is force mass x acceleration, where force is measured in Newtons, mass is measured in kilograms, and acceleration is measured in meters per second squared. The gravitational constant is not directly used in this formula.
The unit of momentum is kilogram meters per second (kg m/s).
Momentum is the product of mass times velocity, so in SI units, the units are kilograms x meters / second. There is no special name for this unit.
The mass of a object in kilograms times its velocity is its momentum.
(kilograms) x (meters per second)That's a (mass) multiplied by a (speed), which is a unit of [momentum] ... kilogram-meter per second.
Kilograms times second per meter is a unit of measurement for momentum, which represents the product of mass and velocity. Specifically, it describes how much momentum a moving object has per unit length.
Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.
To convert 66 kilograms per hour to meters per second, we need to first convert kilograms to meters using the acceleration due to gravity, which is 9.81 m/s^2. Once we find the value in meters per hour, we can then convert it to meters per second by dividing by 3600 since there are 3600 seconds in an hour.
New answer - J=kg*m^2/s^2. J/kg=m^2/s^2 The definition of Joule is N * m (Newtons times meters) The definition of Newton is kg * m / s2 (kilograms times meters divided by seconds squared) Dividing the unit Joule by kilograms leaves meters per second squared (or meters mer second per second)
Meters per second squared I think thank you
7pi liters
The result is 2800 kg*m/s, which represents momentum.
To get meters per minute, you'd multiply meters per second times the number of seconds in a minute which is 60.
0.2 meters per second in the direction opposite where he threw the wrench.
In physics, the net force is measured in Newton. The formula for net force is given as the mass times the acceleration. The mass is given in kilograms (kg), and the acceleration is measured in meters per second squared. A Newton is equivalent to a kilogram-meters per second squared.