Total force (net force) acting along the horizontal x direction is:
Fx = 30 + 40 + ( - 20) = 50 N
total force acting along the vertical y direction is:
Fy = 30 + ( - 20) + 0 = 10 N
so, the magnitude of the total force on M is:
and its direction with respect to positive H-axis is:
.
B] The horizontal component of the fourth force will be - 50 N and the vertical component will be - 10 N so that the total force is zero. This will ensure that the acceleration is zero and so the velocity stops changing.
Three forces acting on a spherical mass M are depicted in the diagram below 60 2...
Three forces acting on a spherical mass M are depicted in the diagram below. dynamically generated plot A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: Direction: Incorrect. Tries 4/20 Previous Tries B. When a fourth force is applied to the mass, it is observed that the velocity of the mass...
hree forces acting on a spherical mass M are depicted in the diagram below 60 O 20 0-20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude: Direction: Submit Answer Tries 0/6 B. When a fourth force is...
Three forces acting on a spherical mass M are depicted in the diagram below. A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: Direction: Processing your submission ... Tries 0/20 B. When a fourth force is applied to the mass, it is observed that the velocity of the mass stops changing...
Three forces acting on a spherical mass M are depicted in the diagram below 60 40 u 20 -20 30 -30-20-10 10 2θ 3θ 4θ 50 60 7θ 8θ Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude Direction: Submit Answer Incompatible units. No conversion found between "u"...
Three forces acting on a spherical mass M are depicted in the diagram below 60 2 50 40 30 20 10 -10 o .20 30 30-20-10 0 20 30 40 50 60 70 80 Force, Herizestal-component (N) A. Calculate the magnitude and direction (l.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude Direction: B. When a fourth...
Three forces acting on a spherical mass M are depicted in the diagram below 60 - 2 50 40 u 1O 2 -30-2θ-10 θ 10 20 3θ 40 50 6θ 70 80 1 Force, Horizontal-component (N) 2 A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on qrid intersections Magnitude 8 5 1 Direction: Submit...
Three forces acting on a spherical mass M are depicted in the diagram below. 60 2 30 O 20 1 -20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: 50 N 9 2 5 9 Direction: 10...
Three forces acting on a spherical mass M are depicted in the diagram below. A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: Direction: Incompatible units. No conversion found between "N" and the required units. Tries 0/20 Previous Tries B. When a fourth force is applied to the mass, it is...
Three forces acting on a spherical mass M are depicted in the diagram below. A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: Direction: E40 O 20 1 -20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N)
Three forces acting on a spherical mass M are depicted in the diagram below. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. E40 O 20 -20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N)