Because shear strength is a unit of force, not mass. It should be expressed in Newtons.
18 kg/500 g = 18 kg / 0.5 kg = 36/118 kg/500 g = 18 kg / 0.5 kg = 36/118 kg/500 g = 18 kg / 0.5 kg = 36/118 kg/500 g = 18 kg / 0.5 kg = 36/1
7.0 kg
1 kg = 1000g → 6kg 30 g = 6 x 1000 g + 30 g = 6030 g But I suspect you really want it in kg: 1000g = 1 kg → 6kg 30 g = 6 kg + 30 ÷ 1000 kg = 6 kg + 0.03 kg = 6.03 kg
1 lb = 0.4536 kg To convert kg to pounds, divide the kilos by 0.4536. As a rough approximation, multiply the kg by 2.2. The formula to convert kg to lbs1 kg* 2.2046 lbs 1 kg = 2.204622622 lbs
This depends on the density of the substance you refer to. As kg is a mass unit, and ml (or cm^3) is a volume, they cannot be exchanged exactly unless density is known. The formula Density = Mass divided by Volume gives us this relationship. If we assume that you refer to water, with a density of about 1 g cm^-3, then 454g is 454ml.
it would be incorrect to refer to shear strength in g or kg because shear strength is a force not mass
the gravitational field strength of uranus is 8.867 N/ Kg
It is about 3.7 n per kg.
no because there is 1000 grams in a kg so 500 g is 0.5 kg =================== The above answer is incorrect. 510g - 371g is 139g which IS 0.139kg
Mass (kg) x Gravitational Field Strength (Gravity) (N/kg) = Weight (N)GFS on earth = 10 N/kg
The compressive strength of bricks varies depending on the type of bricks and what they are used for. The compressive strength of conventional red bricks is 40 to 65 Kg/cm2. In comparison, flyash bricks have a compressive strength of 70 to 120 Kg/cm2.
No, they refer to the same thing: kilograms
gravitational field strength
Yes
'Kilos' and 'kg' refer to the same unit of measure; kilograms.
'Kilos' and 'kg' refer to the same unit of measure; kilograms.
The compressive strength of bricks varies depending on the type of bricks and what they are used for. The compressive strength of conventional red bricks is 40 to 65 Kg/cm2. In comparison, flyash bricks have a compressive strength of 70 to 120 Kg/cm2.