in general, how do we know that the binormal vector, B, is orthogonal to both T...

Find the vectors T and N and the binormal vector B = T ⨯ N, for...

Find the vectors T and N and the binormal vector B = T ⨯ N, for the vector-valued function r(t) at the given value of t. r(t) = 6 cos(2t)i + 6 sin(2t)j + tk,    t0 = pi/4 find: T(pi/4)= N(pi/4)= B(pi/4)=

At a given point on a smooth space curve r(t), T(t) is the unit tangent vector,...

At a given point on a smooth space curve r(t), T(t) is the unit tangent vector, N(t) is the principle unit normal vector and B(t) is the binormal vector. Which of the following are correct? (The multiple-choice question might have more than one correct answer. Circle all correct answers for full credit.) Group of answer choices A)None of the above has to be true. B) T ( t ) ⋅ T ′ ( t ) = 0 C) | B...

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t)...

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t) ,    t > 0 (a) Find the unit tangent and unit normal vectors T(t) and N(t). T(t) = N(t) = (b) Use this formula to find the curvature. κ(t) =

Sometimes we need to know the components of a vector. This will happen when we know...

Sometimes we need to know the components of a vector. This will happen when we know the length and direction of a vector, but not the perpendicular vectors. Dave walks 15 m at a compass heading of 37◦ . How far east does Dave walk? North? )A compass heading is a way of describing direction. The following compass headings have defined angles: N is 0◦ , E is 90◦ , S is 180◦ , and W is 270◦)

Consider the following vector function. r(t) = <9t,1/2(t)2,t2> (a) Find the unit tangent and unit normal...

Consider the following vector function. r(t) = <9t,1/2(t)2,t2> (a) Find the unit tangent and unit normal vectors T(t) and N(t). (b) Use this formula to find the curvature. κ(t) =

An object moves in a coordinate system with velocity vector v(t) = < sqrt(1+2t), tcos(?t), tsin(?t)...

An object moves in a coordinate system with velocity vector v(t) = < sqrt(1+2t), tcos(?t), tsin(?t) > for t >= 0. ?=pi a. Find the equation of the tangent line to the objects path when it reached the origin. b. When the object reached the origin, with what angle did it strike the xy-plane? c. Give the (unit) tangent, (unit) normal, and binormal directions for the object when it hits the xy-plane. d. Give a vector-valued function describing the objects...

1. A plane curve has been parametrized with the following vector-valued function, r(t) = (t +...

1. A plane curve has been parametrized with the following vector-valued function, r(t) = (t + 2)i + (-2t2 + t + 1)j a. Carefully make 2 sketches of the plane curve over the interval . (5 pts) b. Compute the velocity and acceleration vectors, v(t) and a(t). (6 pts) c. On the 1st graph, sketch the position, velocity and acceleration vectors at t=-1. (5 pts) d. Compute the unit tangent and principal unit normal vectors, T and N at...

Use the helix: r(t)= (bcost)i +(bsint)j +(ct)k , b>0 I only need e and f. I...

Use the helix: r(t)= (bcost)i +(bsint)j +(ct)k , b>0 I only need e and f. I posted another question where only a-d were answered if you want to use that work to answer e and f. thank you a. find the unit tangent vector b. find the principal normal vector c.find the curvature d.find the binormal vector e. Find the tangential component of acceleration. f. find the normal component of acceleration using both formulas, try to verify that they are...

Find two unit vectors orthogonal to ?=〈−4,4,5〉a=〈−4,4,5〉 and ?=〈4,0,−4〉b=〈4,0,−4〉 Enter your answer so that the first...

Find two unit vectors orthogonal to ?=〈−4,4,5〉a=〈−4,4,5〉 and ?=〈4,0,−4〉b=〈4,0,−4〉 Enter your answer so that the first vector has a positive first coordinate

Answer two parts a)If r(t) is the position of an object, then unit tangent vector T(t)...

Answer two parts a)If r(t) is the position of an object, then unit tangent vector T(t) is the velocity (the derivative of position). True or False b)You start from rest (no motion) and your acceleration is the constant vector 1i-2j+3k meters/second2. Find your velocity vector after 2 seconds.