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The geometry which describes the various cutting angles of the single point cutting tools is known as tool geometry.For further information consult your teacher and if you get a better answer than this please tell me...................
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A geometry student uses a dilation tool in his geometry software to do an identity transformation on an octagon. The screen is shown.Is this an identity transformation Answer yes or no?
no
What is a characteristic of Euclidean geometry?
One main characteristic of non-Euclidean geometry is hyperbolic geometry. The other is elliptic geometry. Non-Euclidean geometry is still closely related to Euclidean geometry.
What is the electron geometry for OF2?
molecular geometry is bent, electron geometry is tetrahedral
What is the structural geometry of NOF?
Molecular geometry will be bent, electron geometry will be trigonal planar
What is geometry based on?
Geometry is based on logic.
What is the difference between forming and generating?
In generating, the geometry of the workpart is determined by the feed trajectory of the cutting tool. On the other hand in forming, the shape of the part is created by the geometry of the cutting tool.
How did anlytic geometry provide a valuable tool for scientist?
they used it
A geometry student uses a dilation tool in his geometry software to do an identity transformation on an octagon. The screen is shown.Is this an identity transformation Answer yes or no?
no
What is The Geometry Tool Used to measure the size of an angle in degrees called?
Protractor
Which alphabet is in a geometry box?
D( Protractor)
Which alphabet is in geometric box?
The alphabet of every language can be used as a geometric tool. Without writing, geometry is nearly impossible.
What has the author Peter Martin Webb written?
Peter Martin Webb has written: 'The influence of cutting tool geometry upon aspects of chip flow and tool wear'
What are some real world applications of geometry?
Euclidean geometry has become closely connected with computational geometry, computer graphics, convex geometry, and some area of combinatorics. Topology and geometry The field of topology, which saw massive developement in the 20th century is a technical sense of transformation geometry. Geometry is used on many other fields of science, like Algebraic geometry. Types, methodologies, and terminologies of geometry: Absolute geometry Affine geometry Algebraic geometry Analytic geometry Archimedes' use of infinitesimals Birational geometry Complex geometry Combinatorial geometry Computational geometry Conformal geometry Constructive solid geometry Contact geometry Convex geometry Descriptive geometry Differential geometry Digital geometry Discrete geometry Distance geometry Elliptic geometry Enumerative geometry Epipolar geometry Euclidean geometry Finite geometry Geometry of numbers Hyperbolic geometry Information geometry Integral geometry Inversive geometry Inversive ring geometry Klein geometry Lie sphere geometry Non-Euclidean geometry Numerical geometry Ordered geometry Parabolic geometry Plane geometry Projective geometry Quantum geometry Riemannian geometry Ruppeiner geometry Spherical geometry Symplectic geometry Synthetic geometry Systolic geometry Taxicab geometry Toric geometry Transformation geometry Tropical geometry
Does geometry help technology professionals?
Yes. Geometry is used in many different fields of technology. Mathematics is a root tool used in nearly every existing aspect of technology. Used in electronics, mechanical engineering, surveying and chemistry just to name most common.
What is a geometric compass?
A geometric compass is an instrument, or a tool, used in plane geometry to draw arcs and circles. Not to be confused with the geometric and military compass invented by Galileo.
Why do we learn indirect proofs in Geometry?
Indirect proofs are a very useful tool, not just in geometry, but in many other areas - making it possible to prove things that would be hard or impossible to prove otherwise. An example outside of geometry is the fairly simple proof, often found in high school algebra textbooks, that the square root of 2 is not a rational number.
Affecting factor of tool life in machinability?
The life of tool is affected by many factors such as: cutting speed, depth of cut, chip thickness, tool geometry, material or the cutting fluid and rigidity of machine. Physical and chemical properties of work material influence tool life by affecting form stability and rate of wear of tools. The nose radius tends to affect tool life.1. Cutting speed: Cutting speed has the greatest influence on tool life. As the cutting speed increases the temperature also rises. The heat is more concentrated on the tool than on the work and the hardness of the tool metrix changes so the relative increase in the hardness of the work accelerates the abrasive action. The criterion of the wear is dependent on the cutting speed because the predominant wear may be wear for flank or crater if cutting speed is increased.2. Feed and depth of cut: The tool life is influenced by the feed rate also. With a fine feed the area of chip passing over the tool face is greater than that of coarse feed for a given volume of swarf removal, but to offset this chip will be greater hence the resultant pressure will nullify the advantage.3. Tool Geometry: The tool life is also affected by tool geometry. A tool with large rake angle becomes weak as a large rake reduces the tool cross-section and the amount of metal to absorb the heat.4. Tool material: Physical and chemical properties of work material influence tool life by affecting form stability and rate of wear of tool.5. Cutting fluid: It reduces the coefficient of friction at the chip tool interface and increases tool life.
