Electric tool

What is claimed is: 1. An electric tool, comprising: a brushless motor having a stator where stator coils are wound around teeth of a stator core, and a rotor rotatably supported on an inner circumference side of the stator; and a rotary striking mechanism unit, converting a rotational force of the brushless motor into a striking force and applying the striking force to a tip tool, wherein the brushless motor has a rated power input ranging from 1000 to 1300 W and a motor speed under fixed speed control at 16800±10% revolution per minute, and wherein: when an optimization variable (Ku) relating to the brushless motor is defined by Expression as follows: ( Ku )={(stator core outer diameter) 2 ×(stator core lamination thickness)×(total tooth width)×(rotor outer diameter)}÷{(rated power input)×(motor speed under fixed speed control)}, wherein the stator core outer diameter is a numerical value shown in mm, the stator core lamination thickness is a numerical value shown in mm, the total tooth width is a numerical value shown in mm and is from 54 to 66, the rotor outer diameter is a numerical value shown in mm, the rated power input is a numerical value shown in W, and the motor speed is revolutions per minute, a value of (Ku) of the brushless motor is set to 14.6≤(Ku)≤21.8. 2. The electric tool as claimed in claim 1 , wherein: the rotor has plate magnets. 3. The electric tool as claimed in claim 1 , wherein: the stator core has six slots. 4. An electric tool, comprising: a brushless motor having a stator where stator coils are wound around teeth of a stator core, and a rotor rotatably supported on an inner circumference side of the stator; and a transmission part transmitting a rotational force of the brushless motor to a tool maintaining element, wherein the brushless motor has a rated power input ranging from 1000 to 1300 W and a motor speed under fixed speed control at 16800±10% revolutions per minute, and wherein: when an optimization variable (Ku) relating to the brushless motor is defined by Expression as follows: ( Ku )={(stator core outer diameter)2×(stator core lamination thickness)×(total tooth width)×(rotor outer diameter)}÷{(rated power input)×(motor speed under fixed speed control)}, wherein the stator core outer diameter is a numerical value shown in mm, the stator core lamination thickness is a numerical value shown in mm, the total tooth width is a numerical value shown in mm and is from 54 to 66, the rotor outer diameter is a numerical value shown in mm, the rated power input is a numerical value shown in W, and the motor speed is revolution per minute, a value of (Ku) of the brushless motor is set to 14.6≤(Ku)≤21.8.