Three forces act on an object (at the origin of a rectangular coordinate system). Force one,...

A force table applies three forces to a ring in the center of the table. When...

A force table applies three forces to a ring in the center of the table. When the forces are balanced, the ring is stationary in the center of the table. The net force equation F1+F2+F3=Fnet becomes F1+F2+F3=0 since a stationary object has no net force acting on it. This equation is true for the cartesian components as well: F1x+F2x+F3x=0 F1y+F2y+F3y=0 For each of the three problems below, calculate the force F3 that balances the table with the given F1 and...

Two forces F1 and F2 act on an object. Each force is specified as an ordered...

Two forces F1 and F2 act on an object. Each force is specified as an ordered pair: its magnitude in Newtons and an angle measured in degrees counter-clockwise from the positive x-axis. Let F1 = (27.0 N, ∠115° )and F2 = (83.0 N, ∠240° ). Calculate the magnitude the vector F1 - F2. Include three significant figures in your answer. (If the last digit is a zero, Canvas will not display it but that's OK.) Please HELP!

The above free body diagram, the forces are acting on a 4.70 kg object. The x-axis...

The above free body diagram, the forces are acting on a 4.70 kg object. The x-axis is tilted up from the horizontal by 39.5 degrees. The magnitudes of the three forces are given by: Force F1: 77.0 N Force F2: 74.0 N Force F3: 66.0 N. What is the magnitude of the acceleration of the object? https://gyazo.com/a6bdfe7746936d6ad1dec213f4c0fd51

Given the vector F1 = 100 N, Ѳ1 = 20o , and F2 = 200 N,...

Given the vector F1 = 100 N, Ѳ1 = 20o , and F2 = 200 N, Ѳ2 = 90o and F3 = 300 N, Ѳ3 =220o . Find the magnitude and direction of the resultant F= F1 + F2 + F3 using the following method: 1. Analytical: Use the component method. 2. Graphical: Use the polygon method. Use a percent error calculation to determine how close the graphical result are to the analytical method. (1pt.)

6.) Consider three force vectors F1 with magnitude 98 N and direction 9◦ , F2 with...

6.) Consider three force vectors F1 with magnitude 98 N and direction 9◦ , F2 with magnitude 83 N and direction 133◦ , and F3 with magnitude 76 N and direction 285◦ . All direction angles θ are measured from the positive x axis: counter-clockwise for θ > 0 and clockwise for θ < 0. What is the direction of F as an angle between the limits of −180◦ and +180◦ from the positive x axis with counterclockwise as the...

A 200 Kg block has three forces applied to it at the same time: F1 =...

A 200 Kg block has three forces applied to it at the same time: F1 = 30.0 N force at 40.0 degrees, F2 =150 N force at 95.0 degrees, & F3 = 75.0 N force at 206.0 degrees. (Angles measured counterclockwise from positive x-direction) There is no gravitational force. a. Find the x & y components of the net force on the block b. Find the magnitutude and direction of the net force. c. The block was initially at rest;...

The three forces shown in the figure below act on a particle (with F1 = 46.0...

The three forces shown in the figure below act on a particle (with F1 = 46.0 N, F2 = 59.0 N, θ1 = 61.0°, and θ2 = 29.0°). If the particle is in translational equilibrium, find F3, the magnitude of force 3 and the angle θ3.

Three forces act on the origin: ?⃗ 1 = 1.75 ?? and ?1 = 36.0°, ?1...

Three forces act on the origin: ?⃗ 1 = 1.75 ?? and ?1 = 36.0°, ?1 = 114.3°, ?1 = 53.7°; ?⃗ 2 = (0.300?⃗ − 0.650?⃗ + 0.300?⃗⃗)??; ?⃗ 3 = (−1.25?⃗ + 0.950?⃗ − 3.00?⃗⃗)??. a) find the Cartesian vector of the resultant force ?⃗ ? = ?⃗ 1 + ?⃗ 2 + ?⃗ 3. b) find the magnitude of the ?⃗ ?. c) give the direction angles (??, ??, ??) of ?⃗ ?. d) find unit vectors...

A 200 kg block has three forces applied to it at the same time: F1 =...

A 200 kg block has three forces applied to it at the same time: F1 = 30.0 N force at 40.0°, F2= 150 N force at 95.0°, and F3 = 75.0 N force at 206.0°. (All angles are measured counterclock- wise from the positive x -direction.) There is no gravitational force.             a.         Find the x and y components of the net force on the block. b.         Find the magnitude and direction of the net force. c.         The block was initially at rest; after...

A 200 kg block has three forces applied to it at the same time: F1 =...

A 200 kg block has three forces applied to it at the same time: F1 = 30.0 N force at 40.0°, F2= 150 N force at 95.0°, and F3 = 75.0 N force at 206.0°. (All angles are measured counterclock- wise from the positive x -direction.) There is no gravitational force.             a.         Find the x and y components of the net force on the block.             b.         Find the magnitude and direction of the net force.             c.         The block was initially at rest; after...