1000g per kilogram
Roughly said, 10N = 1 Kg, meaning 1000N = 100 Kg on the earths surface. However , N (Newtons) are used for measuring force and Kg are used to measure Mass, so, it really depends on where you, and to match the same force object will need more or less mass (this is governed by surface gravity).. for example, exact calculus would be: On Earth: 1000 N / 9.806 G = 101.97 Kg On Mars: 1000 N / 3.711 G = 269.46 Kg On Jupiter 1000 N / 24.79 G = 40.33 Kg On Moon 1000 N / 1.622 G = 616.52 Kg This tells us, if you would be able to lift 100 KG on earth, you would be able to lift 616 kg on the moon, but only 40 Kg on Jupiter, as governed by gravitational force.
The weight of an object is given as the formula W=mg where W is the weight, m is the mass and g is the gravitational acceleration (or the gravity of planet). On earth, g is generalized as 10 N kg-1(about 9.8 N kg-1 to be more exact). On the moon, it is about 10/6 N kg-1. So, the weight of a 10kg mass on earth would be 100 N (N is Newton, the SI unit for weight) while the mass would be 16.7 N on the moon.
-1 is the G N I
1 MPa = 1000000 N/m2 and 1 N = 1 kg*m/s2
P(geom,i,g,n) = [((1+g)/(1+i))^n-1]/(g-i)
Roughly said, 10N = 1 Kg, meaning 1000N = 100 Kg on the earths surface. However , N (Newtons) are used for measuring force and Kg are used to measure Mass, so, it really depends on where you, and to match the same force object will need more or less mass (this is governed by surface gravity).. for example, exact calculus would be: On Earth: 1000 N / 9.806 G = 101.97 Kg On Mars: 1000 N / 3.711 G = 269.46 Kg On Jupiter 1000 N / 24.79 G = 40.33 Kg On Moon 1000 N / 1.622 G = 616.52 Kg This tells us, if you would be able to lift 100 KG on earth, you would be able to lift 616 kg on the moon, but only 40 Kg on Jupiter, as governed by gravitational force.
The weight of an object is given as the formula W=mg where W is the weight, m is the mass and g is the gravitational acceleration (or the gravity of planet). On earth, g is generalized as 10 N kg-1(about 9.8 N kg-1 to be more exact). On the moon, it is about 10/6 N kg-1. So, the weight of a 10kg mass on earth would be 100 N (N is Newton, the SI unit for weight) while the mass would be 16.7 N on the moon.
1 N (newton) on a G S (gravitational scale) refers to a force measurement equivalent to the weight of a mass under Earth's gravitational acceleration. Specifically, 1 N is the force required to accelerate a 1 kg mass at a rate of 1 m/s². On a gravitational scale, this means that an object with a weight of 1 N would weigh approximately 0.1 kg on Earth.
On Earth, 1 newton is nearly 0,102 kilogram. 110 N = 11.22 kg.
I don't think there is any equivalency.... A watt isW = J/s = (N*m)/s = ((kg*(m/s^2))*m)/s = kg*(m^2))/(s^3)Therefore: W*kg = (kg^2)*((m^2)/(s^3)) which is not equal to N = kg*(m/s^2)I guess the closest answer would be :1 kg*W = (1 kg*m/s) N or1 kg*W = (1 N*s) N
-1 is the G N I
1 MPa = 1000000 N/m2 and 1 N = 1 kg*m/s2
To calculate his weight on Mars, you would use the formula W = m * g, where W is the weight, m is the mass of the person, and g is the gravitational force on Mars (4 N/kg). If his mass is, for example, 70 kg, then his weight on Mars would be 280 N (70 kg * 4 N/kg).
1 newton (N) is the force required to accelerate 1 kilogram (kg) of mass at a rate of 1 meter per second squared (m/s²). Therefore, 1 N is equivalent to 1 kg·m/s². To convert newtons to kilograms under standard gravity (approximately 9.81 m/s²), you can use the formula: 1 N ≈ 0.102 kg. Thus, 1 N corresponds to about 0.102 kg when considering Earth's gravity.
The weight of 0.7 kg of gold is m = 0.7 kg. To convert this to force in Newtons, we use the formula F = m*g, where g is the acceleration due to gravity (approximately 9.81 m/s^2). Calculating, F = 0.7 kg * 9.81 m/s^2 ≈ 6.887 N.
P(geom,i,g,n) = [((1+g)/(1+i))^n-1]/(g-i)
G is called The universal gravitational constant because at any point of the universe the value of G is constant. G=6.67*10^-11 N m^2/kg^2...!!!!1