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In reality however, earth's gravity depends on the location (altitude and geographical latitude), and cannot be considered an invariant constant.
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These are rules of thumb, useful for many practical purposes. Similarly, 10 N are equivalent to the weight of 1.02 kg mass. This means, that a force of 1 N, is equivalent to the weight of a mass equal to 102 gr, at earth's sea level. Using the Newton's second law of motion with earth's gravitational acceleration g (for this purpose approximated to g ≈ 9.806 m/s 2), we can relate the Newton force unit with the weight of a unit mass (equal to 1 kg). A force of 1 Newton accelerates with 1m/s 2 a mass of 1kg Where F the force, m the mass and a the acceleration. It is defined as the force required to accelerate a mass equal to 1 Kg by 1 m/s 2, according to the Newton's second law of motion: It is a derived unit, based on the kilogram, a unit of mass, the metre, a unit of length and the second, a unit of time. Newton is a unit of force according to the SI system of units. A torque of 1 kNm is equivalent to a 1000l Newton force exercised at 1m distance from rotation axis The kNm is equivalent to the torque applied from 1000 Newton force exercised at a 1 meter distance from the rotation axis. It is the product of kilonewton which is one thousand Newtons, a unit of force, with meter, which is a unit of length. The kilonewton-meter (symbolized kNm or KNm) is a unit of moment or torque, according to the SI (Systeme International) system of units. Assuming, you need to find the relationship between Newton-meter and kilopound-feet, the following equation is obtained from the table:
#FEET TO METER HOW TO#
how many kip-ft makes every unit in the table): UnitĪ quick example how to use the above table is given here. The relationship between kilopound-feet and other units of moment are shown in the following table (i.e. Kilopound-feet and other units of moment/torque This is the conventionally equivalent of 1 kip-ft in kNm. Therefore, 1 kip, which is 1000 pound becomes also: The conversion rule between kilopound-feet and kilonewton-meters (kip-ft to kNm) can be derived, based on the conversion rules between the two components of the unit: the force and the length. Today, however, it is conventionally defined through the meter SI unit as: It was historically conceived as the length of a human male foot. A force of 1 lbf corresponds to the weight of one pound mass at sea levelįoot is a unit of length for the Imperial and US customary system of units. The above definition depends on the earth's gravitational acceleration g, which varies from place to place, but is conventionally averaged to g ≈ 32.1740 ft/s 2, at sea level. Its equivalence to the respective metric unit, the Newton is: 1 lbf = 4.4482216152605 N. Pound force is defined as the force of gravity on the earth's surface upon a mass equal to one avoirdupois pound. A torque of 1 kip-ft is equivalent to a 1000lbf force exercised at 1ft distance from rotation axis
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The kip-ft is equivalent to the torque applied from 1000 pound force exercised at a 1 foot distance from the rotation axis. It is the product of kilopound which is one thousand pounds, a unit of force, with feet, which is a unit of length. The kilopound-feet (symbolized kip-ft or kip.ft or kip ft) is a unit of moment or torque, according to the Imperial and US customary system of units. So 70/12 × 0.3048 = 1.78 meters as well.- Conversion table from kilopound-feet to kilonewton-meters (kip-ft to kNm) The kilopound-feet Note that 70/12 = 5.84 - the same value as obtained above.Simply multiply 5 by the denominator (12) and add it to the numerator (10) to get one tidy fraction: 5 feet and 10 inches can be though of as 5 10/12 feet because there are 12 inches in 1 foot. You can also account for inches by turning your foot value into a fraction.Let's say that we want to convert our height to meters, but we're not 6 feet tall this time.In cases where you must convert a distance in feet and inches to meters, simply divide the inches provided by 12 to find the equivalent number of feet (for fewer that 12 inches, this number will be less than 1.) Then, add this to your foot value and convert to meters as you normally would. In the real world, it's fairly common that you'll hear distances described not as a whole number foot value (1 foot, 2 feet, 3 feet, etc.), but as some combination of feet and inches (20 feet and 11 inches, etc.). Don't forget to account for inch-measurements.