i would use inches
The length of one arm is about 40% of your height
Mechanical advantage= effort arm length/ load arm length For Example Effort arm=120 cm Load arm length= 40 cm MA-120/40 = 3
No. A centimeter is a measure of length. Any unit of measure that has a meter in it is a measure of length. For example, millimeters, meters, kilometers are all units of measure for length.
In square each arm's length is equal. If we indicate each arm's length by 'a'. Then area of square =(a)2
CUBIT
A ruler
umm well maby you get a ruler and put it up to your arm, then u rite down what the number is
You can measure the length of your arm in centimeters or millimeters. To convert this measurement to meters, you would divide by 1000 for millimeters or 100 for centimeters. The other units like decimeters, kilometers, and decameters are not typically used for measuring the length of a human arm.
i would use inches
An arm's length is a distance approximately equal to the length of a human arm, sometimes used figuratively.
Divide the length of the force arm by the length of the resistance arm.
Both websites of Overstock and Surefit provide directions to measure the couch. From Overstock:Measure the Length. First, measure your sofa from the outside of one arm to the outside of the other arm. ...Measure the Seat Cushions. Measure the cushion width in the front of the sofa. ...Measure the Width of the Sofa. ...Measure the Cushion Height. ...Measure the Full Height.
It depends on what the length of your arm is. Mine is a 28 inch. But yours could be longer or shorter. Just take a ruler and measure your arm from your under your arm to about half an inch past your fingertips. The average though is usually about a 24-26 inch! Miss.Twirler
You should use a measuring tape and measure the arm length and width.
The length of one arm is about 40% of your height
To find the mechanical advantage (MA) of a lever, you can calculate it by dividing the length of the effort arm by the length of the load arm. The formula is MA = Le / Ll, where Le is the length of the effort arm and Ll is the length of the load arm.