Whole circle bearing is the angle to a given point taking north as zero degrees
To calculate whole circle bearing (WCB), start by determining the angle from a reference direction, typically true north, measured clockwise. If you're working with a quadrant bearing (e.g., N45°E), convert it to WCB by adding 0° to 90° for bearings in the first quadrant, 90° to 180° for the second quadrant, 180° to 270° for the third quadrant, and subtracting from 360° for the fourth quadrant. The resulting angle is the whole circle bearing, expressed in degrees from 0° to 360°.
Area of whole circle = pi*r2 = 64*pi Area of Sector = Area of Whole Circle * Angle of Sector/Angle of Whole Circle = Area of Whole Circle * 120/360 = Area of Whole Circle / 3 = 64*pi/3 = 67.0 to the nearest tenth.
A whole circle
You have to pull that whole assembly apart to get to the bearings. The wheel comes off, then the brake rotor, then you have the hub assembly. The bearings are inside of that.
An 180 degrees circle is a semi-circle. A whole circle is 360 degrees.
answer it
It is the same as the radius of the whole circle.
A semi-circle, half a circle, by definition is 180 degrees, half of a rotation. A whole circle has a whole rotation, which is 360 degrees.
We call a whole circle "360" degrees. 6.25% of the circle = (0.0625 x 360) = 22.5 degrees
same as for a whole circle
There are 360 degrees in a circle.
One fourth of a circle is 25%, and two tenths of a circle is 20%. When you add these together, 25% + 20% equals 45%. Therefore, one fourth of a circle plus two tenths of a circle is 45% of a whole circle.