Review all six trigonometric ratios: sine, cosine, tangent, cotangent, secant, & cosecant.
Log in jaykumar.p 7 years agoPosted 7 years ago. Direct link to jaykumar.p's post “Why aren't the reciprocal...” Why aren't the reciprocal functions taught with the normal three? • (12 votes) Ron Joniak 7 years agoPosted 7 years ago. Direct link to Ron Joniak's post “Both. They are less used ...” Both. They are less used and without the 3 foundational functions, they are a touch harder to teach. We often teach using SOH-CAH-TOA and using a right triangle, so sin/cos/tan are very well known. (16 votes) Elijah Daniels 7 years agoPosted 7 years ago. Direct link to Elijah Daniels's post “Are cse, sec and cot in a...” Are cse, sec and cot in a calculator? • (10 votes) Haeleon 7 years agoPosted 7 years ago. Direct link to Haeleon's post “Sometimes. There are also...” Sometimes. There are also sometimes inverses of all of them, AND hyperbolic versions of all of those! (8 votes) plpeaksterman67 8 years agoPosted 8 years ago. Direct link to plpeaksterman67's post “what would be some applic...” what would be some applications for using the inverse functions? BW- they seem more intuitive then the sine, and cosine. Tangent seems more intuitive too. • (8 votes) VaeSapiens 8 years agoPosted 8 years ago. Direct link to VaeSapiens's post “Do you mean the "Reciproc...” Do you mean the "Reciprocal functions" like secant and cosecant. The inverse trigonometric functions (the cyclometric functions) are represented by arcosine, arcsine etc. Reciprocal functions were used in tables before computer power went up and there are some instances where calculating an inverse of a function is easier than the function. As to Inverse tringonometric functions they are used to calculate angles. (12 votes) owenashbeck 5 years agoPosted 5 years ago. Direct link to owenashbeck's post “Is there an inverse for t...” Is there an inverse for the reciprocal functions: cosecant, secant, and cotangent? • (3 votes) kubleeka 5 years agoPosted 5 years ago. Direct link to kubleeka's post “Yes, they're arccosecant,...” Yes, they're arccosecant, arcsecant, and arccotangent. (8 votes) peely 8 months agoPosted 8 months ago. Direct link to peely's post “Can trigonometry be appli...” Can trigonometry be applied in higher dimensions? if so where? • (4 votes) Aristotle 7 months agoPosted 7 months ago. Direct link to Aristotle's post “Yes, trigonometry can be ...” Yes, trigonometry can be extended to higher dimensions, and this is often referred to as "multidimensional trigonometry" or "hyperbolic trigonometry" in some contexts. While the basic trigonometric functions like sine, cosine, and tangent are defined in the context of two-dimensional right triangles, they can be generalized to higher dimensions using concepts from linear algebra and vector spaces. Here are some ways in which trigonometric concepts can be applied in higher dimensions: Spherical Trigonometry: Spherical trigonometry deals with triangles on the surface of a sphere. It extends the concepts of traditional trigonometry to the three-dimensional space of the sphere. Spherical trigonometry is particularly important in fields such as astronomy, navigation, and geodesy. Hyperbolic Trigonometry: Hyperbolic trigonometry deals with hyperbolic functions like hyperbolic sine (sinh), hyperbolic cosine (cosh), and hyperbolic tangent (tanh). These functions can be used in various mathematical and scientific contexts, including geometry and physics. Vector Spaces: In linear algebra and vector calculus, trigonometric functions can be used to describe the relationships between vectors in higher-dimensional spaces. For example, the dot product between two vectors involves the cosine of the angle between them, and this concept extends to higher dimensions. Geometry: Trigonometric concepts can be used to study angles, distances, and relationships between objects in higher-dimensional Euclidean spaces. They can also be applied to problems involving polyhedra and other geometric figures in higher dimensions. Engineering and Physics: Trigonometric concepts are used in various engineering and physics applications that involve multidimensional systems, such as wave propagation, oscillations, and vibrations in three-dimensional space or higher. Computer Graphics and Computer Science: Trigonometry plays a role in computer graphics when dealing with three-dimensional modeling, rotation, and transformations. It is also used in computer science algorithms and data analysis in multidimensional spaces. In these higher-dimensional contexts, the trigonometric functions are generalized and adapted to work with vectors, matrices, and other mathematical structures. This allows for the analysis and manipulation of data and phenomena in multiple dimensions, making trigonometry a valuable tool in various fields of mathematics and science. (5 votes) Exodus37 4 years agoPosted 4 years ago. Direct link to Exodus37's post “What are the hyperbolic t...” What are the hyperbolic trig functions? • (4 votes) yasmin 4 months agoPosted 4 months ago. Direct link to yasmin's post “sinh, cosh, and tanh” sinh, cosh, and tanh (1 vote) Durgen 2 years agoPosted 2 years ago. Direct link to Durgen's post “So there are sine, cosine...” So there are sine, cosine, tangent, arcsine, arccosine, arctangent, cosecant, secant, and cotangent. My calculator says there also seems to be arcsecant, arccosecant, and arccotangent. Is that correct? Are they called by different names? • (3 votes) sgohil26 a year agoPosted a year ago. Direct link to sgohil26's post “Arcsecant, arccosecant, a...” Arcsecant, arccosecant, and arctangent are all inverses of the reciprocal functions. (2 votes) E.P.I.C. a year agoPosted a year ago. Direct link to E.P.I.C.'s post “why so many weird names, ...” why so many weird names, what do they mean, and how do you even pronounce them? • (1 vote) Prisha a year agoPosted a year ago. Direct link to Prisha's post “cot -> cotangent (co-tan-...” cot -> cotangent (co-tan-gent), sec-> secant (sea-can't), csc-> cosecant (co-sea-can't) (6 votes) Jasmine J 6 years agoPosted 6 years ago. Direct link to Jasmine J's post “How do I solve an equatio...” How do I solve an equation like this: csc theta=1/sin theta? • (1 vote) Madd Sam 6 years agoPosted 6 years ago. Direct link to Madd Sam's post “That's not a problem, its...” That's not a problem, its a statement. csc(Θ) = 1/sin(Θ), sec(Θ) = 1/cos(Θ), and cot(Θ) = 1/tan(Θ). (3 votes) ditchdigger03 6 years agoPosted 6 years ago. Direct link to ditchdigger03's post “What is the difference be...” What is the difference between cosecant and arcsine? • (1 vote) Scott Freeman 6 years agoPosted 6 years ago. Direct link to Scott Freeman's post “Cosecant is a reciprocal ...” Cosecant is a reciprocal function but arcsine is an inverse function. Review of Trigonometric ratios : https://www.khanacademy.org/math/geometry-home/right-triangles-topic/reciprocal-trig-ratios-geo/a/trigonometric-ratios-review And Intro to arcsine https://www.khanacademy.org/math/precalculus/trig-equations-and-identities-precalc/inverse-trig-functions-precalc/v/inverse-trig-functions-arcsin (3 votes)Want to join the conversation?
Are they simply less used or are they harder to teach without sin, cos, and tan?
Maybe these two links would help clarify it further:
