12 Science CBSE Answers for MCQ Maths Inverse Trigonometric Functions in English to enable students to get Answers in a narrative video format for the specific question.
Expert Teacher provides 12 Science CBSE Answers for MCQ Maths Inverse Trigonometric Functions through Video Answers in English language. This video solution will be useful for students to understand how to write an answer in exam in order to score more marks. This teacher uses a narrative style for a question from Inverse Trigonometric Functions not only to explain the proper method of answering question, but deriving right answer too.
Please find the question below and view the Answer in a narrative video format.
Question:
Answer Video in English:
You can select video Answers from other languages also. Please check Answers in ( Hindi )
Question 1 : is equal to :
(View Answer Video)
Question 2 :
Write the value of the following:
Question 3 : What is principal value of (View Answer Video)
Question 4 : If , then write the value of. (View Answer Video)
Question 5 : Write the principal value of (View Answer Video)
Question 1 : Find the integral of the function . (View Answer Video)
Question 2 : Evaluate : . (View Answer Video)
Question 3 : Show that : (View Answer Video)
Question 4 : Find:
(View Answer Video)
Question 5 : Evaluate : (View Answer Video)
Question 1 : Find the values of x, if. (View Answer Video)
Question 2 : Which of the following is correct? (View Answer Video)
Question 3 : Evaluate . (View Answer Video)
Question 4 : If=andis Cofactor of , then the value of is given by (View Answer Video)
Question 5 : Evaluate the determinants in :. (View Answer Video)
Question 1 : Let * be the binary operation on N given by a * b = LCM of a and b. Find 20 * 16. (View Answer Video)
Question 2 : Functions are defined respectively, by , find . (View Answer Video)
Question 3 : If f(x) = |x| and g(x) = | 5x – 2 |. Then, fog = _____. (View Answer Video)
Question 4 : Number of binary sets on the set is, (View Answer Video)
Question 5 : If f(x) = ax + b and g(x) = cx + d, then f[g(x)] – g[f(x)] is equivalent to, (View Answer Video)