371850 Three concurrent forces of the same magnitude are in equilibrium. What is the angle between the forces? Also, name the triangle formed by the forces as sides

371851 Consider an object kept at the centre, in the \(\boldsymbol{X} \boldsymbol{Y}\)-plane, on which five coplanar forces act as shown in the figure. The resultant force on the object is

371852 The magnitudes of a set of 3 vectors are given below. The set of vectors for which the resultant cannot be zero is

371853 A mass of \(6 \mathrm{~kg}\) is suspended by a rope of length \(2 \mathrm{~m}\) from a ceiling. A force of \(50 \mathrm{~N}\) in the horizontal direction is applied at the mid- point \(P\) of the rope. The angle made by the rope with the vertical, in equilibrium is

371854 The sum of the magnitudes of two forces acting at a point is \(18 \mathrm{~N}\) and the magnitude of their resultant is \(12 \mathrm{~N}\). If the resultant is at \(90^{\circ}\) with the smaller force, the magnitude of the forces in \(\mathbf{N}\) are

371850 Three concurrent forces of the same magnitude are in equilibrium. What is the angle between the forces? Also, name the triangle formed by the forces as sides

371851 Consider an object kept at the centre, in the \(\boldsymbol{X} \boldsymbol{Y}\)-plane, on which five coplanar forces act as shown in the figure. The resultant force on the object is

371852 The magnitudes of a set of 3 vectors are given below. The set of vectors for which the resultant cannot be zero is

371853 A mass of \(6 \mathrm{~kg}\) is suspended by a rope of length \(2 \mathrm{~m}\) from a ceiling. A force of \(50 \mathrm{~N}\) in the horizontal direction is applied at the mid- point \(P\) of the rope. The angle made by the rope with the vertical, in equilibrium is

371854 The sum of the magnitudes of two forces acting at a point is \(18 \mathrm{~N}\) and the magnitude of their resultant is \(12 \mathrm{~N}\). If the resultant is at \(90^{\circ}\) with the smaller force, the magnitude of the forces in \(\mathbf{N}\) are

371850 Three concurrent forces of the same magnitude are in equilibrium. What is the angle between the forces? Also, name the triangle formed by the forces as sides

371851 Consider an object kept at the centre, in the \(\boldsymbol{X} \boldsymbol{Y}\)-plane, on which five coplanar forces act as shown in the figure. The resultant force on the object is

371852 The magnitudes of a set of 3 vectors are given below. The set of vectors for which the resultant cannot be zero is

371853 A mass of \(6 \mathrm{~kg}\) is suspended by a rope of length \(2 \mathrm{~m}\) from a ceiling. A force of \(50 \mathrm{~N}\) in the horizontal direction is applied at the mid- point \(P\) of the rope. The angle made by the rope with the vertical, in equilibrium is

371854 The sum of the magnitudes of two forces acting at a point is \(18 \mathrm{~N}\) and the magnitude of their resultant is \(12 \mathrm{~N}\). If the resultant is at \(90^{\circ}\) with the smaller force, the magnitude of the forces in \(\mathbf{N}\) are

371850 Three concurrent forces of the same magnitude are in equilibrium. What is the angle between the forces? Also, name the triangle formed by the forces as sides

371851 Consider an object kept at the centre, in the \(\boldsymbol{X} \boldsymbol{Y}\)-plane, on which five coplanar forces act as shown in the figure. The resultant force on the object is

371852 The magnitudes of a set of 3 vectors are given below. The set of vectors for which the resultant cannot be zero is

371853 A mass of \(6 \mathrm{~kg}\) is suspended by a rope of length \(2 \mathrm{~m}\) from a ceiling. A force of \(50 \mathrm{~N}\) in the horizontal direction is applied at the mid- point \(P\) of the rope. The angle made by the rope with the vertical, in equilibrium is

371854 The sum of the magnitudes of two forces acting at a point is \(18 \mathrm{~N}\) and the magnitude of their resultant is \(12 \mathrm{~N}\). If the resultant is at \(90^{\circ}\) with the smaller force, the magnitude of the forces in \(\mathbf{N}\) are

371850 Three concurrent forces of the same magnitude are in equilibrium. What is the angle between the forces? Also, name the triangle formed by the forces as sides

371851 Consider an object kept at the centre, in the \(\boldsymbol{X} \boldsymbol{Y}\)-plane, on which five coplanar forces act as shown in the figure. The resultant force on the object is

371852 The magnitudes of a set of 3 vectors are given below. The set of vectors for which the resultant cannot be zero is

371853 A mass of \(6 \mathrm{~kg}\) is suspended by a rope of length \(2 \mathrm{~m}\) from a ceiling. A force of \(50 \mathrm{~N}\) in the horizontal direction is applied at the mid- point \(P\) of the rope. The angle made by the rope with the vertical, in equilibrium is

371854 The sum of the magnitudes of two forces acting at a point is \(18 \mathrm{~N}\) and the magnitude of their resultant is \(12 \mathrm{~N}\). If the resultant is at \(90^{\circ}\) with the smaller force, the magnitude of the forces in \(\mathbf{N}\) are