“The distance around a circle is called ( ).” A. radius B. diameter C. circumference D. area 相关知识点: 试题来源: 解析 C。本题考查圆的相关概念。选项 A“radius”是半径。选项 B“diameter”是直径。选项 D“area”是面积。只有选项 C“circumference”是圆的周长,即围绕圆的距离。
The ___ of a circle is the distance around it. A. diameter B. radius C. circumference D. area 相关知识点: 试题来源: 解析 C。本题考查圆的相关词汇。选项 C“circumference”指圆的周长,即圆周围的距离。选项 A“diameter”是直径。选项 B“radius”是半径。选项 D“area”是面积。
1.A method of removing ambiguous velocity in distance circle in process of wind field retrieving风场反演中距离圈上速度退模糊方法研究 英文短句/例句 1.A method of removing ambiguous velocity in distance circle in process of wind field retrieving风场反演中距离圈上速度退模糊方法研究 2.The distance of...
A. gained in the direction of the original course B. gained at right angles to the original course C. the ship moves sidewise from the original course awayfrom the transfer means the distance D. around the circumference of the turning circle ...
It takes into account the wrap-around effect, meaning that if the two points are close to wrapping around the circle, the distance will be smaller. For example, let’s say we have two angles: 10 degrees and 350 degrees. The direct angular distance between them would be 340 degrees. ...
A.gained in the direction of the original courseB.gained at right angles to the original courseC.the ship moves sidewise from the original course awayfrom the transfer means the distanceD.around the circumference of the turning circle相关知识点: 试题来源: 解析...
【单选题】In relation to the turning circle of a ship, the term TRANSFER means the distance ___ .16 A. gained at right angles to the original course B. gained in the direction to the original course C. moved sidewise from the original course when the rudder is first put over ...
A circle of radius 2 rolls completely around the inside perimeter of a square of side 10.What distance is covered by the centre of the circle? 3一道数学题What distance is covered by the centre of the circle?A circle of radius 2 rolls completely around the inside perimeter of a square ...
It would be rather difficult if we didn't have circles (our wheels) to take us from point A to point B. Just a quick look around you and you are bound to see circles in so many different applications. You see them in cars, bicycles and even our clocks. You can't escape them!
Sea glider guidance around a circle using distance measurements to a drifting acoustic source. Sliwka J,Clement B,Probst I. Intelligent Robots and Systems(IROS) 2012IEEE/RSJ International Conference on . 2012J. Sliwka, B. Clement, and I. Probst. Sea glider guidance around a circle using ...