Long magnitude has units of meters with the symbol (m).<\/span> According to the approval of the General Conference des Poid et Mesures \/ CGPM 11th 1963. The long-distance meter is a unit that is 1,650,763.73 times the wavelength in vacuum of the radiation krypton-86 atom.<\/span><\/p>\n Figure 1.2 length measuring instrument<\/span><\/p>\n 2. The quantity and unit mass<\/strong><\/span> 3. The quantity and unit of Time<\/strong><\/span> 4. The quantity and unit kercepatan<\/strong><\/span> Description :<\/span> Figure 1.3 Magnitude speed<\/span><\/p>\n 5. The quantity and unit of effort<\/strong><\/span> Figure 1.6 Magnitude of a business<\/span><\/p>\n Business equation:<\/span> 6. Magnitude and power units<\/strong><\/span> Then<\/span> 7. Magnitude and acceleration unit<\/strong><\/span>![\"image\"](\"http:\/\/i0.wp.com\/www.tneutron.net\/mesin\/wp-content\/uploads\/sites\/4\/2015\/08\/image31.png\" "\\"image\\"")
<\/a><\/p>\n
\n<\/strong> Has a mass scale with the symbol kilograms (kg).<\/span> According CGPM 1st 1901. The standard kilogram is a unit of mass equal to the mass of prototype \/ sample kilogram made of platinum iriudium material stored in the body weight and size of the International, in Severs near Paris.<\/span><\/p>\n
\n The amount of time to have seconds.<\/span> One second is the time required by the Cesium atom to vibration as much as 9,192,631.77 times, then the time is divided into periods are repeated: seconds, minutes, hours and then days, weeks, months and years.<\/span><\/p>\n
\n kercepatan is the amount of a derivative that has the unit m \/ s, kercepatan is the distance traveled per unit of time, for example kercepatan motor vehicle which has units of km \/ h, the velocity of the lathe chisel which has units of m \/ min.<\/span> Formulated speed:<\/span><\/p>\n<\/a><\/p>\n
\n V = speed in units of m \/ s<\/span>
\n t = time in seconds (s)<\/span>
\n S = distance in units of m<\/span><\/p>\n<\/a><\/p>\n
\n If on an object work force F (N) and the object is moving sejarak S (m) then on it has been an attempt by W = FXS (Nm) The business is the amount of derivatives that have the unit Nm or joules, business is defined as force times distance ,<\/span><\/p>\n<\/a><\/p>\n
\n W = FXS (Nm)<\/strong><\/span>
\n<\/strong> Description:<\/span>
\n W = Work in units Nm or joule<\/span>
\n F = Force in N<\/span>
\n S = distance in units of m<\/span><\/p>\n
\n Power is defined as the effort per unit of time, if at an object work force F (N) and the object is moving sejarak S (m) at time t (seconds) then the power required by P = W \/ t = (FXS) in units ( nm \/ s) or (watts).<\/span> Power is the amount of derivatives that have the unit Nm \/ s or joules \/ s or (watts).<\/span><\/p>\n<\/a><\/p>\n
\n P = FV<\/strong><\/span>
\n Description :<\/span>
\n o P = power in watts<\/span>
\n o W = Work in units Nm or joule<\/span>
\n o F = force in N<\/span>
\n o S = distance in units of m<\/span>
\n o V = velocity in units of m \/ s<\/span>
\n ot = time in seconds (s)<\/span><\/p>\n
\n Acceleration is the amount of derivatives that have units of m \/ s2, the acceleration is the change of velocity per unit of time, for example, the acceleration of gravity, known as gravity, gravity is denoted with the letter g magnitude is measured above sea level which is 9.80600 m \/ s2 or 32.169 ft \/ s2.<\/span> Acceleration formulated:<\/span><\/p>\n