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All Textbook Solutions for Precalculus

14AYU In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 0,0,0 ) and P 2 =( 4,1,2 )In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 0,0,0 ) and P 2 =( 1,2,3 )In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 1,2,3 ) and P 2 =( 0,2,1 )In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 2,2,3 ) and P 2 =( 4,0,3 )In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 4,2,2 ) and P 2 =( 3,2,1 )In Problems 15-20, find the distance from P 1 to P 2 . P 1 =( 2,3,3 ) and P 2 =( 4,1,1 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 0,0,0 );( 2,1,3 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 0,0,0 );( 4,2,2 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 1,2,3 );( 3,4,5 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 5,6,1 );( 3,8,2 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 1,0,2 );( 4,2,5 )In Problems 21-26, opposite vertices of a rectangular box whose edges are parallel to the coordinate axes are given. List the coordinates of the other six vertices of the box. ( 2,3,0 );( 6,7,1 )In Problems 27-32, the vector v has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 0,0,0 ) ; Q=( 3,4,1 )In Problems 27-32, the vector v s has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 0,0,0 ) ; Q=( 3,5,4 )In Problems 27-32, the vector v has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 3,2,1 ) ; Q=( 5,6,0 )In Problems 27-32, the vector v has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 3,2,0 ) ; Q=( 6,5,1 )In Problems 27-32, the vector v has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 2,1,4 ) ; Q=( 6,2,4 )In Problems 27-32, the vector v has initial point P and terminal point Q . Write v in the form ai+bj+ck ; that is, find its position vector. P=( 1,4,2 ) ; Q=( 6,2,2 )In Problems 33-38, find v . v=3i6j2k In Problems 33-38, find v . v=6i+12j+4k In Problems 33-38, find v . v=ij+k In Problems 33-38, find v . v=ij+k In Problems 33-38, find v . v=2i+3j3k In Problems 33-38, find v . v=6i+2j2k In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . 2v+3w In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . 3v2w In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . vw In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . v+w In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . v w In Problems 39-44, find each quantity if v=3i5j+2k and w=2i+3j2k . v + w 45AYU In Problems 45-50, find the unit vector in the same direction as v . v=3j In Problems 45-50, find the unit vector in the same direction as v . v=3i6j2k In Problems 45-50, find the unit vector in the same direction as v . v=6i+12j+4k In Problems 45-50, find the unit vector in the same direction as v . v=i+j+k In Problems 45-50, find the unit vector in the same direction as v . v=2ij+k 51AYU 52AYU 53AYU 54AYU 55AYU 56AYU 57AYU 58AYU 59AYU 60AYU 61AYU 62AYU 63AYU 64AYU 65AYU 66AYU 67AYU 68AYU 69AYU 70AYU 71AYU 72AYU 73AYU 74AYU 75AYU 76AYU 77AYU 78AYU 79AYU 1AYU True or False For any vector v,vv=0 .3AYU True or False uv is a vector that is parallel to both uandv .5AYU 6AYU In Problems 7-14, find the value of each determinant. [ 3 4 1 2 ]In Problems 7-14, find the value of each determinant. [ 2 5 2 3 ]In Problems 7-14, find the value of each determinant. [ 6 5 2 1 ]In Problems 7-14, find the value of each determinant. [ 4 0 5 3 ]In Problems 7-14, find the value of each determinant. [ A B C 2 1 4 1 3 1 ]In Problems 7-14, find the value of each determinant. [ A B C 0 2 4 3 1 3 ]In Problems 7-14, find the value of each determinant. [ A B C 1 3 5 5 0 2 ]In Problems 7-14, find the value of each determinant. [ A B C 1 2 3 0 2 2 ]In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=2i3j+k w=3i2jk In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=i+3j+2k w=3i2jk In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=i+j w=2i+j+k In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=i4j+2k w=3i+2j+k In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=2ij+2k w=jk In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=3i+j+3k w=ik In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=ijk w=4i3k In Problems 15-22, find (a) vw , (b) wv , (c) ww , and (d) vv . v=2i3j w=3j2k In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k uv In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k vw In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k vu In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k wv In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k vv In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k ww In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k ( 3u )v 30AYU 31AYU 32AYU In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k u( uv )34AYU In Problems 23-44, use the given vectors u,v,andw to find each expression. u=2i3j+kv=3i+3j+2kw=i+j+3k u( vw )36AYU 37AYU 38AYU 39AYU 40AYU 41AYU 42AYU 43AYU 44AYU 45AYU 46AYU 47AYU 48AYU 49AYU 50AYU 51AYU 52AYU Find a unit vector normal to the plane containing v=i+3j2kandw=2i+j+3k Find a unit vector normal to the plane containing v=2i+3jkandw=2i4j3k .Volume of a Parallelepiped A parallelepiped is a prism whose faces are all parallelograms. Let A,BandC be the vectors that define the parallelepiped shown in the figure. The volume V of the parallelepiped is given by the formula V=| ABC | . Find the volume of a parallelepiped if the defining vectors are A=3i2j+4k,B=2i+j2k,andC=3i6j2k .Volume of a Parallelepiped Refer to Problem 55. Find the volume of a parallelepiped whose defining vectors are A=i+6k,B=2i+3j8k,C=8i5j+6k Prove for vectors uandv that uv 2 = u 2 v 2 ( uv ) 2 [Hint: Proceed as in the proof of property (4), computing first the left side and then the right side.]58AYU Show that if uandv are orthogonal unit vectors, then uv is also a unit vector.Prove property (3).Prove property (5).Prove property (9). [Hint: Use the result of Problem 57 and the fact that if the angle between uandv , then uv= u v cos .]63AYU 1RE 2RE 3RE 4RE 5RE 6RE 7RE 8RE 9RE 10RE 11RE 12RE 13RE 14RE 15RE 16RE 17RE 18RE 19RE 20RE 21RE 22RE 23RE 24RE 25RE 26RE 27RE 28RE 29RE 30RE 31RE 32RE 33RE 34RE 35RE 36RE 37RE 38RE 39RE 40RE 41RE 42RE 43RE 44RE 45RE 46RE 47RE 48RE 49RE 50RE 51RE 52RE 53RE 54RE 55RE 56RE 57RE 58RE 59RE 60RE 61RE 62RE 63RE 64RE 65RE 66RE 67RE 68RE 69RE 70RE 71RE 72RE 73RE 74RE 75RE 76RE 77RE 78RE 79RE 80RE 81RE 82RE 83RE 84RE In Problems 13, identify each equation. If it is a parabola, give its vertex, focus, and directrix; if an ellipse, give its center, vertices, and foci; if a hyperbola, give its center, vertices, foci, and asymptotes. (x+1)24y29=1 In Problems 13, identify each equation. If it is a parabola, give its vertex, focus, and directrix; if an ellipse, give its center, vertices, and foci; if a hyperbola, give its center, vertices, foci, and asymptotes. 8y=(x1)24 In Problems identify each equation. If it is a parabola, give its vertex, focus, and directrix; if an ellipse, give its center, vertices, and foci; if a hyperbola, give its center, vertices, foci, and asymptotes. In Problems 46, find an equation of the conic described; graph the equation. Parabola: focus (1,4.5), vertex (1,3)In Problems find an equation of the conic described; graph the equation. Ellipse: center vertex focus In Problems find an equation of the conic described; graph the equation. Hyperbola: center vertex contains the point In Problems 79, identify each conic without completing the square or rotating axes. 2x2+5xy+3y2+3x7=0 In Problems 79, identify each conic without completing the square or rotating axes. 3x2xy+2y2+3y+1=0 In Problems identify each conic without completing the square or rotating axes. 10CT 11CT 12CT A parabolic reflector (paraboloid of revolution) is used by TV crews at football games to pick up the referees announcements, quarterback signals, and so on. A microphone is placed at the focus of the parabola. If a certain reflector is 4 feet wide and 1.5 feet deep, where should the microphone be placed ?For find In the complex number system, solve the equation For what numbers x is 6xx2 ?4CR 5CR 6CR 7CR 8CR 9CR 10CR Solve the equation where. Find the rectangle equation of the plane curve x(t)=5tanty(t)=5sec2t2t2 The formula for the distance d from P 1 =( x 1 , y 1 ) to P 2 =( x 2 , y 2 ) is d= _______.(p.4)To complete the square of x 2 4x , add_______ .(pp. A28-A29)Use the Square Root Method to find the real solutions of ( x+4 ) 2 =9 .(p.A48)The point that is symmetric with respect to the x-axis to the point is_______. (pp.19-21)To graph y= ( x3 ) 2 +1 , shift the graph of y= x 2 to the right_____units and then ______1 unit.(pp. 106-114) _________ is the collection of all points in a plane that are same distance from a fixed point as they are from a fixed line. The line through the focus and perpendicular to the directrix is called the __________ of the parabola. 7AYU 8AYU 9AYU 10AYU In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 13-20, the graph of a parabola is given. Match each graph to its equation. (A) y 2 =4x (C) y 2 =4x (E) ( y1 ) 2 =4( x1 ) (G) ( y1 ) 2 =4( x1 ) (B) x 2 =4y (D) x 2 =4y (F) ( x+1 ) 2 =4( y+1 ) (H) ( x+1 ) 2 =4( y+1 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 4,0 ) ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 0,2 ) ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 0,3 ) ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 4,0 ) ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 2,0 ) ; directrix the line x=2 In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 0,1 ) ; directrix the line y=1 In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Directrix the line y= 1 2 ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Directrix the line x= 1 2 ; vertex at ( 0,0 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 0,0 ) ; axis of symmetry the y-axis ; containing the point ( 2,3 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 0,0 ) ; axis of symmetry the x-axis ; containing the point ( 2,3 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 2,3 ) ; focus at ( 2,5 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 4,2 ) ; focus at ( 6,2 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 1,2 ) ; focus at ( 0,2 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 3,0 ) ; focus at ( 3,2 )In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 3,4 ) ; directrix the line y=2 In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Vertex at ( 2,4 ) ; directrix the line x=4 In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 3,2 ) ; directrix the line x=1 In Problems 21-38, find the equation of the parabola described. Find the two points that define the latus rectum, and graph the equation by hand. Focus at ( 4,4 ) ; directrix the line y=2 In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 3956, find the vertex, focus, and directrix of each parabola. Graph the equation. y2=8x In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 3956, find the vertex, focus, and directrix of each parabola. Graph the equation. x2=4y In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 3956, find the vertex, focus, and directrix of each parabola. Graph the equation. (y+1)2=4(x2)In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 3956, find the vertex, focus, and directrix of each parabola. Graph the equation. x2+6x4y+1=0 In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 3956, find the vertex, focus, and directrix of each parabola. Graph the equation. x24x=2y In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems , find the vertex, focus, and directrix of each parabola. Graph the equation. In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.In Problems 57-64, write an equation for each parabola.

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