finalanswer
![Determine the maximum intensity of the distributed load w](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the maximum intensity of the distributed load w
![Compute the x, y, z components of reaction at the bearings](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Compute the x, y, z components of reaction at the bearings
![Determine the components of the support reactions at the fixed support A on the cantilevered beam](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the components of the support reactions at the fixed support A on the cantilevered beam
![Determine the maximum weight W of the block](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the maximum weight W of the block
![Determine the magnitude of the resultant force and its direction](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitude of the resultant force and its direction
![Find the Cartesian Vector form of the three forces on the sign and the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the Cartesian Vector form of the three forces on the sign and the resultant force
![Determine the horizontal and vertical components of reaction at the supports](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the horizontal and vertical components of reaction at the supports
![Determine the moment of the force about point O.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the moment of the force about point O.
![Determine the magnitude and direction of the resultant force.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitude and direction of the resultant force.
![Determine the reactions on the bent rod](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the reactions on the bent rod
![Determine the force in each cord for equilibrium and max mass of the pipe](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the force in each cord for equilibrium and max mass of the pipe
![Determine the horizontal and vertical components of reaction](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the horizontal and vertical components of reaction
![Determine the reactions at the supports](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the reactions at the supports
![Determine the resultant force and specify where it acts on the beam](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the resultant force and specify where it acts on the beam
![Determine the magnitude of the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitude of the resultant force
![Determine the magnitude of the column loadings FA and FB and the magnitude of the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitude of the column loadings FA and FB and the magnitude of the resultant force
![Biomechanical model of the lumbar region](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Biomechanical model of the lumbar region
![Determine the magnitude of the moments of the force F](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitude of the moments of the force F
![Determine the force developed in each cable for equilibrium.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the force developed in each cable for equilibrium.
![Find the forces AB and AC given F and angles with the law of sines](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the forces AB and AC given F and angles with the law of sines
![Resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Resultant force
![Determine the internal normal force, shear force, and moment at points C and D of the beam](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the internal normal force, shear force, and moment at points C and D of the beam
![Find the force given the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the force given the resultant force
![Determine the components of reaction at these supports if the cylinder has a mass of 40 kg](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the components of reaction at these supports if the cylinder has a mass of 40 kg
![Express the forces in Cartesian form and find the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Express the forces in Cartesian form and find the resultant force
![Determine the mass of the block at D](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the mass of the block at D
![Find the resultant force and F_1 direction angles](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the resultant force and F_1 direction angles
![Determine the moment of each force about A](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the moment of each force about A
![Determine the stretch in each spring for equilibrium of the 2-kg block](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the stretch in each spring for equilibrium of the 2-kg block
![Determine the normal force, shear force, and moment at a section passing through point C](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the normal force, shear force, and moment at a section passing through point C
![Find the resultant force acting on the flag pole](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the resultant force acting on the flag pole
![Express forces as Cartesian and solve for resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Express forces as Cartesian and solve for resultant force
![Replace the loading by a force and couple moment acting at point O](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Replace the loading by a force and couple moment acting at point O
![Determine the components of reaction at the ball and socket joint A and the tension in the cables](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the components of reaction at the ball and socket joint A and the tension in the cables
![Determine the horizontal and vertical components of reaction](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the horizontal and vertical components of reaction
![Find the resultant force with the minimum F_b](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the resultant force with the minimum F_b
![Calculate the resultant force breaking down the two forces](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Calculate the resultant force breaking down the two forces
![Breaking down forces acting on a gusset plate and finding resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Breaking down forces acting on a gusset plate and finding resultant force
![Finding theta and magnitude of horizontal resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Finding theta and magnitude of horizontal resultant force
![Statics 2-1: Finding the resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Statics 2-1: Finding the resultant force
![Determine the moment of this force about point O](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the moment of this force about point O
![Determine the magnitudes of F1 and F2 for equilibrium](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the magnitudes of F1 and F2 for equilibrium
![Determine the tension developed in each cord and max mass of the lamp](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the tension developed in each cord and max mass of the lamp
![Determine the moment of this force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the moment of this force
![Determine the unstretched length of spring AC](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the unstretched length of spring AC
![Determine the largest weight of the lamp that can be supported](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the largest weight of the lamp that can be supported
![Determine the reactions at the roller A and pin B](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the reactions at the roller A and pin B
![Determine the force in each member of the truss.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the force in each member of the truss.
![Centroid y of the beam’s cross-sectional](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Centroid y of the beam’s cross-sectional
![Find the moment produced by the load and the weights and the mass of the counterweight](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the moment produced by the load and the weights and the mass of the counterweight
![Finding the force and Force component along bb given force component along aa](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Finding the force and Force component along bb given force component along aa
![Determine the force in cord ABC.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the force in cord ABC.
![Breaking down F1 and F2 into components and finding resultant force](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Breaking down F1 and F2 into components and finding resultant force
![Finding the resultant force between three forces](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Finding the resultant force between three forces
![Finding the resultant force given three forces](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Finding the resultant force given three forces
![determine the placement x so that this force creates a maximum moment](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
determine the placement x so that this force creates a maximum moment
![Determine the force in each member of the truss.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Determine the force in each member of the truss.
![Calculate the resultant force breaking down forces](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Calculate the resultant force breaking down forces
![Find the Thevenin equivalent circuit with respect to the terminals a,b for the circuit shown.](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Find the Thevenin equivalent circuit with respect to the terminals a,b for the circuit shown.
![Finding the magnitude of the force given the angle and phi between F_r and F_1](https://www.seevid.ir/assets/images/thumbnail_medium_en.avif)
Finding the magnitude of the force given the angle and phi between F_r and F_1