If two forces of magnitude 2p and 4p act at a point on a body then their maximum resultant is

Engineering Mechanics Questions Bank [1] If two equal forces are acting at a right angle, having resultant force of (20)½ ,then find out magnitude of each force.( Ans. (10)½) [2] Three forces P = 50 N (towards East), Q = 100 N (towards North), and R = 75 N (towards South), are acting on the member, their resultant is nearer to…( Ans. 55.9 N) [3] If the resultant of two equal forces has the same magnitude, then the angle between them is…(Ans. 120°) [4] A force of 200N acts 40° to the spoke of a cycle wheel 250 mm in radius. The moment about the center of the wheel will be nearer to…(Ans. 32 Nm) [5] The forces, which meet at one point and their lines of action also lie in the same plane, are known as…(Ans. Coplanar Concurrent Forces) [6] Forces 160.5N horizontal and 173.5N vertical represents components of resultant then the angle made by the resultant with vertical is…(Ans. 42.77°) [7] A man of weight 60 kg is standing on a ladder of slope 1H: 3V, then the components of weight along the ladder and normal to ladder are…(Ans. -558.37N, -186.18N) [8] A like parallel force system consists of four forces of magnitude 10N, 20N, 30N, and 40N acting at 0.2m apart from each other respectively. The position of the resultant from the first force 10N is…(Ans. 0.4 m) [9] A door of width 1m can rotate if a moment of 10 Nm is applied. The minimum force that can be applied to open it is…(Ans. 10N) [10] Three forces P = 120 N (towards East), Q = 200 N (towards North), and R = 150 N (towards South) are acting on the member. Their resultant is nearer to…(Ans. 130N) [11] The moment of the 30 N force passing through the coordinates (4, 0) and (0, 3) about the origin...(Ans. 72 Nm) [12] Force of 60N acts at horizontal distance of 1m from origin and angle made by force with horizontal is 20º. The moment of force about origin is…(Ans. 20.5 Nm) [13] If the arm of couple is doubled, its moment will…(Ans. be doubled) [14] A force of 50 N acting at A(3,4) makes an angle of 50 degrees anticlockwise with the horizontal. Its moment about origin will be nearer to…(Ans. 244Nm) [15] What is the moment of force about the apex of triangle, if 3 forces of 40N each acting along the sides of equilateral triangle of side 2m taken in order. (Ans. 69.3 Nm) [16] Find resultant of forces when two like parallel forces of 40N and 70N which act at the ends of the rod 40cm long. (Ans. 110N) [17] The forces acting on a square plate 10m side are as under 1)AB = 10 N, A(1,2) and B(3,3) 2) CD=15N, C(0,1) and D(-3,3) 3) EF=20N, E(-2,0) and F(-1,-3) 4) GH=25N, G(1,-2) and H(3,0). The resultant of the force system is nearer to…(Ans. 23.47N) [18] Four forces 180N, 100N, 60N, and 50N are acting along sides AB, BC, CD, and DA of a square ABCD of side 2m. Their resultant force is 130N. Calculate position of resultant w.r.t A. (Ans. 2.46 m) [19] Resultant of four forces acting on square plate ABCD is 15N & N30E. If moment of resultant about B is 22.5 Nm clockwise, locate point where resultant intersects vertical side BC. (Ans. 3m) [20] A force of 100N makes an angle of 600 anticlockwise with the horizontal. It passes through the point having coordinates (4, 5). The moment of this force about origin is nearer to…(Ans. 446 Nm) [21] A square hole is punched out of circular lamina of radius R in such a way that centre of square is on Y axis and its base coincides with horizontal diameter of circle. If the side of square is R/2. The X centroidal distance is…(Ans. 0) [22] A triangular hole is cut from circular lamina of radius R such that the vertex of triangle is on Y axis and base coincides with horizontal diameter. If base of triangle is 2R and height is R. The C.G. of remaining lamina is…(Ans. -0.155r) [23] The Y centroidal distance of unequal I section from its bottom having upper flange size of 15cm x 5 cm, lower flange size of 10cm x 5 cm and web size 5cm x 15 cm deep is…(Ans. 13.75cm) [24] If the forces 1N, 2 N, 3 N, 4N, and 5 N act in order along the sides of a regular pentagon & 1 N force acting horizontally towards right then the resultant is nearer to…(Ans. 4.25N) [25] Two forces 5N and 7N act at a point on a body. The resultant when they act at right angle is…(Ans. (74)1/2 N) [26] A plate ABCD is of breadth AB=40mm and depth AD=20 mm. A force of 10 N at angle 2850 is applied at D. The magnitude of the moment of the force about point A is nearer to…(Ans. 193 Nmm) [27] Two Forces acting on a ladder & resting against vertical wall and horizontal floor is an example of …(Ans. Coplanar Non-Concurrent Forces) [28] Force F=300N acting vertically upwards at x=2m, y=2m The magnitude of moment of force about origin is (Ans.: 600 Nm) [29] When two equal forces are acting at 60° produce a resultant equal to 10(3)½, then find out magnitude of each force (Ans.: 10) [30] The center of mass will coincide with the centroid provided the density of material is (Ans.: Uniform) [31] Two forces 5N and 7N act at a point on a body. The resultant when they act at right angle is (Ans. : (74)½ ) [32] In a member ABCD,AB=1m,BC=1m,CD=4m, Force at A=20N acting vertically upwards ,at B=20N acting vertically downwards, at C=30N acting vertically upwards and at D=40N acting vertically upwards. Resultant of the force system is ( Ans.: D) [33] A triangle of base b and height h has its centroid (h/3) from its base. It is valid for (Ans.: Any shape of triangle) [34] Two forces 5N and 6N act at a point on a body. The resultant when they act at 45° is (Ans.: 10.17) [35] If two forces of magnitude 5kN and 10kN act on a body , then their maximum resultant is (Ans. 15kN ) [36] Two forces of magnitude 5N and 7N act at a point on a body. The square of the resultant is three times the product of the forces. Then the angle between them is (Ans. 63.71°) [37] For a line of length 2.5 m passing through origin and inclination 60 with x-axis, centroid along x is (Ans.: 0.625 ) [38] Two equal forces act on a body. The square of the resultant is three times the product of the forces. Then the angle between them is (Ans.: 60° ) [39] Two like parallel forces of 300N and 200N are acting at the ends of the rod of 4m length. Distance of resultant is (Ans. 1.6m from larger force ) [40] If two forces of magnitude 10kN and 20kN act on a body , then their minimum resultant is ( Ans. 10 kN ) [41] For a line of length 2.5 m passing through origin and inclination 60 with x-axis, centroid along y is ( Ans. 1.083 ) [42] Two forces of magnitude P and 2P act at a point on a body. The square of the resultant is four times the product of the forces. Then the angle between them is (Ans. 41.4°) [43] If two forces of magnitude 2P and 4P act at a point on a body , then their maximum resultant is ( Ans. 6P ) [44] From a circular area of radius 5m, a smaller circle of radius 2.5m is removed. Top half of smaller circle is in I st quadrant and bottom half is in fourth quadrant. The centroid of remaining figure is (Ans. (-0.833, 0)) [45] The algebraic sum of the two forces forming couple is equal to (Ans. Zero ) [46] A square hole is removed from a thin circular lamina, the diagonal of the square being equal to the radius of circle 5m. One side of square coincides diameter of circle such that top half of square is in Ist quadrant and bottom half is in fourth quadrant. The centroid of remaining figure is ( Ans. (- 4.435, 0) ) [47] The C.G. of a wire bend forming a quarter circular arc with radius 10cm is Ans. (6.366 cm, 6.366 cm) [48] A force of 40N is applied perpendicular to the edge of the door 2m wide. Then moment of force about hinge is (Ans. 80Nm ) [49] The moment of resultant of a force system about any point is equal to the algebraic sum of moments of all other forces about the same point, this is the statement of law of A transmissibility of forces ( Ans. Varignon’s theorem ) [50] If a system of forces can be reduced to a force couple system at a given point without changing effect on the body , then it is ( Ans. equivalent system ) [51] On a member AB two unlike parallel forces 20N each act at 0.6m apart. The equivalent system can be ( Ans. couple of 12Nm ) [52] What is the magnitude of vertical force required to produce a moment of 20Nm at point A (1m,1m) if the force is acting at point B(2m,2m) ( Ans. 20N) [53] A pulley of diameter AB = 200 mm is subjected to equal unlike parallel forces of 2000 N one at A and other at B tangentially. A third force of 500 N acts through centre of pulley at 450 The resultant force will be ( Ans. 500N at 450) [54] A vertical force of 20 N acts at point B(2m,2m). The moment produced at A (1m,1m) is (Ans. 20Nm ) [55] For a semicircular arc symmetric about x-axis, centroidal x co-ordinate is- 2r/3.14 [56] ABC is a right angled triangle having AB horizontal base of 5m length. AC is vertical 12m in length. Forces 50N, 130 N and P N act along AB, BC and CA respectively. Find magnitude of P if the system reduces to a couple.- 120N [57] A couple of 30 Nm is applied to a screw driver of length 0.3m to tighten a screw. The force required to produce the couple will be -100 N [58] For a quarter-circular area lying in first qudrant, centroidal X and Y coordinates are- (4r/3x3.14) from both axes [59] If two forces each equal to T in magnitude act at right angles, their effect may be neutralized by a third force acting along their bi-sector in opposite direction whose magnitude will be- √2T [60] If a semicircular area is symmetric about y-axis, the centroidal y co-ordinate is- 4r/(3x3.14) [61] Three concurrent forces Q=23N, P=43N, F=43N act at point O. Q is along +ve x axis, P is acting at an angle 45° in forth quadrant and F is acting in third quadrant at an angle 45°. Then their resultant is - 65.01 N [62] For a quarter-elliptical area of radii a and b lying in first qudrant, centroidal X and Y co-ordinates respectively are- 4a/3x3.14 and 4b/3x3.14 [63] If a semielliptical area of radii a and b is symmetric about y-axis, the centroidal y co-ordinate is4b/(3x3.14) [64] If a parabolic area of height h is symmetric about y-axis, the centroidal x co-ordinate is- zero [65] A boat is being towed through a canal by a cable which makes an angle of 100 with the shore. If the pull in the cable is 20N, find the force tending to move the boat along the canal - 19.7 N [66] A square ABCD of sides 1m, rest on side AB. A force of 100 N acting at 45 deg with AB, acts at point C which is diagonally opposite to A. The moment of this force about A is- zero. [67] If a parabolic area is symmetric about y-axis, the centroid along y-axis from its base is- 3h/5. [68] For a line of length 'a' passing through origin and inclination θ with x-axis, centroid along x is given by - (a/2) cos(θ) [69] The square of the resultant of forces P1 and P2 with a angle 'D' between them is- P1²+P2²+2P1P2cos D [70] For a line of length 'a' passing through origin and inclination theta with x-axis, centroid along y is(a/2) sin (θ) [71] A boat is being towed through a canal by a cable which makes an angle of 100 with the shore.If the pull in the cable is 400N, find the force tending to move the boat along the canal.- 393.92 N [72] From a circular area of radius R, a smaller circle of radius r is removed. Top half of smaller circle is in Ist quadrant and bottom half is in fourth quadrant. R=2r. The centroid of remaining area is- (-r/3, 0) [73] Two identical members of 100mm length are joined together at their center to form a cross (+).Four forces 1N, 2N, 3N and 4N act at the ends normal to each member in the anti clockwise direction. Find the moment developed at the center.-500Nmm [74] Forces 90 N horizontal and 72.5 N vertical represents components of resultant then the angle made by the resultant with vertical is- 51.14° [75] If a semicircular arc is symmetric about y-axis, the centroid along x-axis is- zero. [76] A square hole is removed from a thin circular lamina, the diagonal of the square being equal to the radius of circle R. One side of square coincides with diameter of circle such that top half of square is in Ist quadrant and bottom half is in fourth quadrant. The centroid of remaining area from the center of circle is- (-0.877R, 0) [77] A man of weight 40 kg is standing on a ladder of slope 1H: 3V, then the components of weight along the ladder and normal to ladder are- 372.25 N & 124.12N [78] If three like parallel forces 1N, 1.5N and 2N act at distance of 0.5m each. Find distance of resultant from 1N force- 0.61 m [79] For a line of length 3 m passing through origin and inclination 40 with x-axis, centroid along x is- 1.149 [80] A man of weight 60 kg is standing on a ladder of slope 1H: 4V, then the components of weight along the ladder and normal to ladder are- 571.01 N & 142.79 N [81] Two boys are pulling a box with the help of two cables. If the pull in the cables are 32 N, at an angle of 40° and 53 N at an angle of 130° with +ve x axis, their resultant will be- 61.91 N. [82] Two boys are pulling a box with the help of two cables. If the pull in the cables are 40 N, at an angle of 40° and 25 N at an angle of 130° with +ve x axis, their resultant will be- 47.16 N [83] For a line of length 2.5 m passing through origin and inclination 45 with x-axis, centroid along y is0.883 [84] Four forces 50N,100N,150N,200N act in clockwise direction along the sides of a square of side 0.6m. The moment of force about the centroid of the square is- 150 Nm [85] From a circular area of radius 4m, a smaller circle of radius 2m is removed. Top half of smaller circle is in Ist quadrant and bottom half is in fourth quadrant. The centroid of remaining area is- (0.667, 0) [86] A triangular hole is cut from circular lamina of radius 10cm such that the vertex of triangle is on Y axis and base coincides with horizontal diameter. If base of traingle is 20 cm and height is 10 cm. The C.G. of remaining lamina is- -1.55cm [87] If two equal forces are acting at a right angle, having resultant force of (80)½ ,then find out magnitude of each force. - (15)½ [88] On a rod AD forces 20N, 10N, 35N, 15 N act at points A, B, C, D resp. Forces 20N, 10N, 15 N act downward and 35N acts upward. The position of the points B,C,D from A are 20mm, 30mm, and 50mm respectively. The position of the resultant from point A is (Ans= 10m). [89] Two forces 3N and 5N act at a point on a body. The resultant when they act at 45° is (Ans= (55.21)½). [90] Forces 10 N, 20 N, 30 N and 40 N act along sides of a rectangle PQ, QR, RS, SP. Their resultant force is nearer to (Ans= 28.28 N). [91] If the forces 10N, 20 N, 30 N, 40N, 50N and 60N acts in order along the sides of a regular hexagon & 10 N force acting horizontally towards right, then the resultant is nearer to (Ans= 60N). [92] A force of 500 N is to be resolved into two forces P and Q parallel to and in the direction of line of action of F and acting one on each side of F at a distance of 3 and 2 units respectively. The values of P and Q are(Ans= 200 N, 300 N). [93] Forces 50 N, 100 N, and 150 N act along sides of a equilateral triangle taken in order.Their resultant force is nearer to (Ans= 86.67N). [94] If two forces of magnitude 5kN and 10kN act on a body , then their maximum resultant is (Ans= 15kN). [95] A pulley of diameter AB = 200 mm is subjected to two equal unlike parallel forces of 2000 N one at A and other at B tangentially. A third force of 500 N acts through centre of pulley at 450 The resultant force and couple will be (Ans= 500N at 450 along with couple of 400 Nm). [96] For a straight rod ABC, AB=2m, BC=4m and forces acting are as 1) at A 40N along positive x axis. 2) at B 120N at an angle 50 degrees with negative x axis in anticlockwise direction 3) At C 60 N upwards. Their resultant force is nearer to (Ans=4.89N). [97] Forces acting tangentially on a circle of 2m radius are 1) 10 N acting North 2) 20 N acting NE 3) 30 N acting SE 4) 40 N acting south.Their resultant force is nearer to (Ans=51.22 N). [98] Two equal forces act on a body. The square of the resultant is two times the product of the forces. Then the angle between them is (Ans=90°). [99] Three forces 10 N, 20 N, and P N act along sides of a equilateral triangle taken in order. 10N force acting horizontally towards right. Their resultant force is 17.32N an an angle 30 degrees with negative x axis in anticlockwise direction. The magnitude of the force P is nearer to (Ans=30N). [100] If the distance between two bodies is doubled, the force of attraction F between them will be _______ (Ans=1/4 F). [101] If two forces of magnitude 10kN and 20kN act on a body, then their minimum resultant is (Ans=10kN). [102] Four Forces 100N, 200N, 300N and P acting along sides of a rectangle in cyclic order. 100 N force is acting horizontally towards right. Their resultant is 282.8 N (in 3rd quadrant). The magnitude of the force P is nearer to (Ans=400N). [103] Four forces 25 N, 50 N, P and Q are acting along sides of a rectangle taken in order. 25N force acting horizontally towards right. Their resultant force is 200N acting vertically downward. The magnitude of the force P and Q are nearer to (Ans=25N,150N). [104] The force of gravitation between two bodies in the universe does not depend on (Ans =the sum of their masses). [105] Two forces of magnitude P and 2P act at a point on a body. The square of the resultant is three times the product of the forces. Then the angle between them is (Ans =60°). [106] A square PQRS of side 1.5m is acted by forces 100N, 200N, 300N and 400N along the sides taken in order. The 100N force acts horizontally towards right. Their resultant force is nearer to (Ans =330N). [107] ABC is a right angled triangle having AB horizontal base of 5m length. AC is vertical 12m in length. Forces 50N, P N and 120N act along AB,BC and CA respectively. Find magnitude of P if the system reduces to a couple. (Ans =130N). [108] The angle between two forces, when the resultant is maximum and minimum are (Ans =0° and 180°). [109] A bent up bar ABC such that AB= 3m, BC= 1m, and angle ABC is 90 degrees. The forces acting on it are 1) At A 40 N at an angle 30 degrees with positive x axis in anticlockwise direction 2) At B 20 N towards negative x axis 3) At C 10 N towards positive x axis. Their resultant force is nearer to (Ans =33.74N). [110] If two forces of magnitude 2P and 4P act at a point on a body, then their maximum resultant is (Ans =6P). [111] Forces 15N, 25N, 35N, 45N, and 50N act along & in the direction AB, AD, CB, CD, and BD of a square ABCD & 15 N force acting horizontally towards right. Their resultant force is nearer to (Ans =70.10N). [112] The C.G. of a plane lamina will not be at its geometrical centre if it is a (Ans =Right angled Triangle). [113] A horizontal bar ABCD is such that AB=BC=CD= 1.5 m carries the loads as 1) At A 10 N towards positive x axis 2) At B 30 N at an angle 40 degrees with negative x axis in clockwise direction 3) At C 45 N at an angle 50 degrees with positive x axis in anticlockwise direction 4) At D 55N towards Positive x axis. Their resultant force is nearer to (Ans =89N). [114] If a number of forces are acting at a point, their resultant will be inclined at an angle θ with the horizontal, such that (Ans =tan θ = ΣV / ΣH). [115] Three forces 10 N, 20 N, and P N act along sides of a equilateral triangle taken in order. 10N force is acting horizontally towards right. If resultant force acts vertically downward then forceP is nearer to (Ans =Zero). [116] A square hole is punched out of circular lamina of radius 'r' in such a way centre of square is on Y axis and that base coincides with horizontal diameter of circle. If the side of square is 'r/2'. The Y centroidal distance is (Ans =0.216 r). [117] The forces acting on lamina having coordinates of points are 1) from A to B 100N, A(2,3) and B(4,4) 2) from P to Q 150 N, P(1,0) and Q(3,0) 3) from R to S 125N, R(0,2) and S(0,4). The resultant of the force system is nearer to (Ans =293.50N). [118] Centroidal distance of an equilateral triangle with side 'a' from any of the three sides is (Ans =0.288 a). [119] A parabolic lamina of base 'a' and height 'h' is given by equation ' y = hx²/a² '. The X centroidal distance is (Ans =3a/4). [120] Forces acting at points A, B, C, D tangentially on a circle taken in order anticlockwise are 1) 100 N acting towards North 2) P N acting towards West 3) 50 N acting towards South 4)125 Nacting towards East respectively. If resultant force is 60 N in 1st quadrant. Find P (Ans =91.83N). [121] A parabolic lamina of base 'a' and height 'h' is given by equation ' y = hx²/a² '. The Y centroidal distance is (Ans =3h/10). [122] A quarter elliptical lamina is of base 'a' and height 'b'. The X centroidal distance is (Ans =4a/3π). [123] A force of 200 N acts on a body having mass of 300 kg for 90 seconds. If the initial velocity of the body is 20 m/s determine the final velocity of the body when the force acts in the direction of motion. (Ans =80 m/s). [124] If the forces 10N, 20 N, 30 N, 40N, and 50 N act in order along the sides of a regular pentagon while the force 10 N acting horizontally towards right, then the resultant is nearer to (Ans =42.5N). [125] A quarter elliptical lamina is of base 'a' and height 'b'. The Y centroidal distance is (Ans =4b/3π). [126] Coplanar concurrent forces are those forces which (Ans =meet at one point and also lie in the same plane). [127] A block of mass m is moving up a plane making an angle θ with horizontal. The acceleration of the block is a. If the co-efficient of friction between the block and the plane surface is T, the pulling force required in the direction of motion is (Ans =(mgsin θ + ma + Tmgcos θ)). [128] From a quarter circular lamina of radius 'r', square of side 'r/2' is cut in such a way that, two sides of square coincides with two straight sides of quarter circle. Taking origin as corner point of lamina each centroidal coordinate is (Ans=0.506r). [129] The C.G. of an isosceles triangle with base 'b' and sides 'a' is ________ from its base (Ans=(4a² b²)½ / 6). [130] The C.G. of a body is the point through which, (Ans=Earth attracts). [131] A letter 'A' is made up of wire bends. The length of each inclined wire is 30cm and the horizontal distance between them is 20cm. The horizontal wire is of length 10cm. The Ycentroidal distance from the base of 'A' is (Ans=14.14 cm). [132] If two forces of magnitude P each act at angle 'B' .Then resultant will be (Ans=P(2+2cosB)½). [133] A letter 'B' is made up of wire bends.The length of vertical wire is 20cm and the two semicircular arc with diameter of 10 cm. The X- centroidal distance from the vertical wire is (Ans=1.945 cm). [134] A 35N force makes an angle 140° with x axis Determine its components along the lines making angles of 300° and 240° with x axis. (Ans='-11.97 N, 6.07 N). [135] A wire bend forming an arc of circle with the subtended angle equal to 2α and is symmetrical about x axis. Locate the C.G. (Ans = (rsinα/α, 0)). [136] A body of weight 80 N is being pulled by another body of weight 50 N along a smooth horizontal plane with the help of smooth pulley and a string arrangement. Weight 50 N is resting on a horizontal floor and 80N is being suspended freely. The tension T in this case would be (Ans=30.8N). [137] The forces 1N, 2 N, 3 N, 4N, 5N and 6N act in order along the sides of a regular hexagon. 1 N force acting horizontally towards right, then the resultant is nearer to Ans. 6N [138] [139] The C.G. of a wire bend forming a quarter circular arc is Ans.(2r/π, 2r/π) On a rod AD forces 20N, 10N, 35N, 15 N acts at points A, B, C, D. Forces 20N, 10N, 15 N act downwards and 35N acts upwards. The position of the points B,C,D from A are 20mm, 30mm,and 50mm respectively. The equivalent force couple system at A is Ans.10N, 100 Nmm [140] A mass of 72Kg is resting on a board inclined at 20° with horizontal. What is the component of the mass normal & parallel to the board. Ans.663.7N, 241.6N [141] The C.G. of a circular stor lamina with the subtended angle equal to 2α and is symmetrical about x axis is Ans.(2r sinα/3α, 0) [142] Three like horizontal forces of 10N, 20N, and 10N act on a vertical rod at A, B, C. If AB = BC = 20 mm. The resultant force couple system at A is Ans.40 N, 800 Nmm [143] The C.G. of a quarter circular area is Ans.(4r/3π,4r/3π) [144] Forces acting tangentially on a circle are 1) 4P N acting towards North 2) 3P N acting towards West 3) 2P N acting towards South 4) P N acting towards East. Resultant force is nearer to Ans.1.4P [145] Two like parallel forces of 60N and 180 N act 120 mm apart from each other. The position of the resultant from 60N force will be Ans.90 mm [146] A trapezoid is having two parallel sides 'a' and 'b' and height 'h'. The Y centroidal distance from bottom side 'b' is Ans. h(b+2a)/3(b+a) [147] A force 235 N acts up the plane at an angle of 60° with the horizontal on a block resting on a 22° inclined plane Determine components of force normal and along the plane. Ans.185.2N,144.7N [148] If two forces of magnitude 7N and 8N act at 60°, then the resultant will be Ans.13N [149] A symmetrical 'T' shaped lamina is made from two rectangles 10cm X 5cm, so that total height is 15cm. The centroidal distance from bottom is Ans.8.75 cm [150] Three weights 30N, 10N, 20N are placed at the three corners taken clockwise on a square ABCD normal to the plane. What should be the weight at the remaining corner so that the resultant of the system lies at the center of square ‘O’? Ans. Not possible [151] Determine the inclination of resultant of force 100N at 0° and 200N at 90°. Ans.63.435° [152] When two equal forces are acting at 60° produce a resultant equal to (28)½, then find out magnitude of each force Ans.(28/3)½ [153] The Y centroidal distance of equal I section from its bottom each having flange of size 10cm x 5 cm and web of size 5cm x 15 cm deep is Ans.12.5cm [154] ABCD is a rectangle in which AB=CD=100mm and BC=DA=80mm and force of 100N each is acting along AB and CD and force of 80N each is acting along BC and DA. Their resultant force is nearer to Ans.0 [155] A force of 100 N acting tangential to a drum of radius 0.25m must be transferred parallel to itself to its center O. The moment which should accompany it for equivalent effect is Ans.25 N m [156] The Y centroidal distance of unequal I section from its bottom having upper flange size of 15cm x 5 cm, lower flange size of 10cm x 5 cm and web size 5cm x 15 cm deep is Ans.13.75 cm [157] A ------------- is a single force which can replace two or more forces and produce the same effect. Ans. Resultant [158] A force of 100 N acting tangential to a drum of radius 0.25m, must be transferred parallel to itself to a diametrically opposite point B. The moment which should accompany it for equivalent effect is Ans.50 N m [159] A horizontal rod WXY, WX=2m, XY=4m subjected to the loading as 1) At W 4 N towards positive x axis 2) At X 12 N towards negative x axis 3) At Y 6 N upwards. Their resultant force is Ans.10 N [160] The Y centroidal distance of frustum of cone from base of diameter 'd', top diameter 'd/2' and height 'd' is Ans.0.44d [161] A block of mass 9 Kg rests on a plane making an angle of 160 with horizontal. Determine the component of the weight normal to the plane. Ans.84.86 N [162] Four forces 50N, 100N, 110N, and 180N are acting along sides AB, BC, CD, and DA of a square ABCD. Their resultant force is nearer to Ans.100N [163] A square hole is punched out of circular lamina of radius 'r = 20cm' in such a way that the centre of square is on Y axis and that base coincides with horizontal diameter of circle. If the side of square is 'r/2', the Y centroidal distance is Ans.4.32 cm [164] Two like parallel forces are acting at a distance of 24 mm apart and their resultant is 20N. If the line of action of the resultant is 6mm from force acting at left. The two forces are Ans.15 N and 5 N [165] ABC is a right angled triangle having AB horizontal base of 4m length. AC is vertical 3m in length. Forces 80N, 100N and P N act along AB,BC and CA respectively. Find magnitude of P if system reduces to a couple. Ans.60N [166] The Y centroidal distance of an equilateral triangle with each side equal to 10cm from any of the three sides is Ans.2.88 cm [167] A telephone pole is supported by a wire which exerts a pull of 890N on the top of the pole. If the angle between the wire and the pole is 500, what are the horizontal and vertical components? Ans.681.8N, 572.1N [168] Three forces acting on a rigid body are represented in magnitude, direction and action by the three side of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to k times the area of triangle. k is equal to Ans.2 [169] A parabolic lamina of base 10cm and height 5cm is given by equation ' y = hx²/a² '. The X centroidal distance is Ans.7.5 cm [170] If two forces of magnitude P and 2P act on a body, then their minimum resultant is Ans. P [171] Four forces 180N, 100N, 60N, and 50N are acting along sides AB, BC, CD, and DA of a square ABCD. Their resultant force is nearer to Ans.130N [172] A parabolic lamina of base 10cm and height 5cm is given by equation ' y = hx²/a² '. The Y centroidal distance is Ans.1.5 cm [173] A couple produces Ans. rotational motion [174] Four concurrent forces1kN, 2kN, 3kN and 4kN acting at an angle of 20°, 63°, 95°,150° from positive x axis. Determine their resultant in kN. Ans.7.35 [175] Two forces act an angle of 120°. If the greater force is 50 N and their resultant is perpendicular to the smaller force, the smaller force is Ans.25N [176] A man weighing 600N is standing at middle of light rod of 4m long. This man is lifted by other two men one is 1m from left end and other is 0.7m from right end, the weight carried by left and right man is nearer to Ans.339N, 261N [177] If the resultant of two forces (P+Q) and (P-Q) is (P²+Q²)½, then the angle between them is given by Ans.cos a= [-(P²+Q²/2(P²-Q²)] [178] For a quarter elliptical lamina of base 10cm and height 15cm, the X centroidal distance is Ans.4.244 cm [179] The two forces of 100 N and 300 N have their lines of action parallel to each other but are in the opposite directions. These forces are known as Ans.unlike parallel forces [180] A like parallel force system consists of four forces of magnitude 10N, 20N, 30N, and 40N acting at 0.2m apart from each other respectively at points A,B,C,D. The equivalent force couple system at A is Ans.100N,40 Nm [181] Four forces 50N, 90N, 20N, and 50N are acting along sides AB, BC, CD, and DA of a square ABCD of side 2m. Their resultant force is 50 N. Calculate position of resultant w.r.t A Ans.4.4 m [182] A vertical force of P N acting in first quadrant in XY plane at (2m, 1m).If P=200N, magnitude of moment about origin is Ans.400 Nm [183] A quarter elliptical lamina of base 10cm and height 15cm. The Y centroidal distance is Ans.6.366 cm [184] The resultant of two forces P1 and P2 is R. If P1 is doubled and the new resultant remains R and becomes perpendicular to P2, then Ans.P1=R [185]

A force 10N at an angle 30° with x axis and acting in vertical plane, containing axis of tower is acting at the top of the tower of height 12 m. the magnitude of moment in Nm created by the force at the base of the tower is nearer to Ans.104