Q) Considering only the principal values of inverse trigonometric tan^(−1) (x)+tan^(−1) (2x)=𝜋/4 is

Q) Considering only the principal values of inverse trigonometric tan^(−1) (x)+tan^(−1) (2x)=𝜋/4 is

JEE MAINS 2024 ( 27 Jan – Shift 2 ) ) Q) Considering only the principal values of inverse trigonometric functions, the number of positive real values of x satisfying tan^(−1) (x)+tan^(−1) (2x)=𝜋/4 is JEE ADVANCED 2025 (18 May – Paper 2 ) #class11trigonometry #jee 2025 #jeemaths #jee2025 #jee2026 trigonometric jee advanced 202 Insta I’d- Shivanggupta34 #diffrentiation #methodofdifferentiation DIFFERENTIATION JEE MAIN PLAYLIST LINK :: LIMITS , Continuity, differentiability playlist link :;    • Limits, continuity and Differentiability J...   JEE: Continuity L4 #jee2025exam #JEEshivangmathsacademy METHOD OF DIFFERENTIATION in One Shot: All Concepts & PYQs Covered | JEE Main & Advanced #JEE #JEE2025 #shivangmathsacademy #IIT #IIT2025 #JEE #methodofdifferentiation JEE 2025: Methods of Differentiation L1 #MethodOfDifferentiation #jee2025 #Continuity #JEE #JEE #JEEBatch #JEESeries l #jee2024 #Maths #Pyqs #JEEConcepts #OneShot #Differentiability #MethodOfDifferentiation #JEEPreparation #JEEMain #JEEAdvanced #JEE2025 #JEEMathematics #OneShotJEE #CrashCourseJEE #JEEImportantQuestions #IITJEE #shivangmathsacademy #JEE #JEEMain #JEEmain2025 #JEEAdvanced #JEEAdvanced2025 #JEE2025 #JEEPreparation #JEE #Class12maths #DifferentiationClass12 #Differentiation Class 12 | One Shot | Marathon | JEE Main | JEE Advanced 2025 #differentiation of inverse Function #parametricfunction #parametricdifferentiation #impicitform #differentiationoflograthmicfunction Differentiation | Definition of Derivative | Geometric Interpretation of Derivative | Differentiability | Rules of Differentiation | Power Rule | Product Rule | Quotient Rule | Chain Rule | Derivative of Polynomial Functions | Derivative of Trigonometric Functions | Derivative of Exponential Functions | Derivative of Logarithmic Functions | Derivative of Inverse Trigonometric Functions | Higher Order Derivatives | Implicit Differentiation | Logarithmic Differentiati a tive of Hyperbolic Functions | Derivative of Inverse Hyperbolic Functio n | Applications of Derivatives | Tangent and Normal | Increasing and Decreasing Functions | Maxima and Minima | Rolle’s Theorem | Mean Value Theorem | L'Hôpital's Rule | Differentiability and Continuity | Differentiation of Composite Functions | Differentiation of Piecewise Functions | Differentiation under the Integral Sign | Differentiation of Multivariable Functions | Partial Derivatives | Directional Derivatives | Implicit Function Theorem | Optimization Problems | Related Rates Problems | Curve Sketching Using Derivat and Engineering. #higherorderderivatives ----------------------------------------------------------------------------------------------------------------------------------------------------------- Free IIT JEE coaching, Free JEd preparation, Best free lAdvanced, JEE Main #inversetrigonometricfunctionsclass12 #JEEMain #JEEAdvanced #Mathematics Trigonometric, logarithmic, and exponential functions, i#JEE2025 #JEEPreparation #JEEPreparationTips #JEEExam #JEEReady #JEE2025Preparation #JEEStudyTips #JEEAdvice #JEECrashCourse #JEEBooks #JEEPhysics #JEEChemistry #JEEMaths #JEEOnlineCoaching #JEEMockTests #JEEExamDay #JEESuccess #JEE2025Goals #JEEJourney #JEEAspiration Insta I’d- Shivanggupta Quadratic Equations JEE MAINS Class 11 :: https://www.youtube.com/playlist?list... ##pyqjee2023 #ir #functionalequation #je #jeepyq2022 #shortcut #shortcutmethod #jee2024 #jeeadvanced2022 #jeemain2025 --------------------- #Maths #JEE # #JEE #JEEMaths #JEEExam #JEE2026 # | | SHIVANG Maths ACADEMY | SHIVANG Sir Maths #jee #jeemains #shivangmathsacademy #jee2024 #pyq #shivangmathsacademy #jeemaths #mathsjee #jeemain2023 #jeemainpyq2023 #jeemainpyq2022 #jeemainpyq2020 #class11maths #jeemain2024 #JEE2024 #4 April and January session #jeequest #jeemain #jeeadvanced #jeemain2025 #jeemain2024 #jee JEE MAINS 2025 JEE MAINS 2025 ( 3 April – SHIFT 1 )JEE ADVANCED 2025 (18 May – Paper 1 ) Q) The total number of real solutions of the 𝜃=tan^(−1) (2tan𝜃)−1/2 sin^(−1) (6tan𝜃/(9+tan^2 𝜃)) is