North is 0 degrees, east is 90 degrees, south is 180 degrees, and west is 270 degrees.
112
232
It could mean west southwest. This would be a bearing that is 22.5 degrees south of due west.
Bearing is a way of describing direction. It is a 3 digit number (including leading zeros). A heading due North is a bearing of 000. The bearing increases clockwise, so that East is a bearing of 090, South is 180, and West is 270.
232
YES!!! it is 360 - 117 = 243 For bearing (navigation) . Bearing of due North is bearing zero(0) . Then moving around the compass clockwise due East is bearing 090 , die South is bearing 180 and due West is bearing 270 . However, if starting at bearing zero(0) and moving ANTI-Clockwise , the first bearing is 270 , which is 90 degrees of turn. The 90 degrees in anti =clockwise is the inverse. NB For ALL bearings you quote three digits. So due East , bearing 90 is quoted as '090'. This is normal navigational practice.
A compass bearing of 270 degrees indicates a direction due west. In navigational terms, this means that if you were to face 270 degrees, you would be looking directly toward the west horizon. This bearing is commonly used in navigation and orienteering to specify directions.
A bearing of 450 degrees on a compass corresponds to due east. In compass bearings, 0 degrees represents north, 90 degrees represents east, 180 degrees represents south, and 270 degrees represents west. Therefore, a bearing of 450 degrees would be 90 degrees past due east.
Mathematical constants are always single-valued. That is what is constant about them. Examples are pi and e. Physical constants could have values that change due to variable conditions.
The adding and subtracting a constant amount means the value will go up. The amount will go up due to the amount been added to each number.
No, changing the mass of a free-falling body does not affect the value of the acceleration due to gravity. The acceleration due to gravity is a constant value that is independent of the mass of the object. All objects fall at the same rate in a vacuum due to gravity.
The constant acceleration due to gravity on EARTH is -9.81 m/s^2. This constant does not apply to objects on other planets because the mass of another planet might not be the same as Earth's mass. Because acceleration due to gravity is constant, this will be the acceleration due to gravity no matter the position of the object on Earth.