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

Two vectors are defined by F1 = 2.60×10−8 N at 130.°, and F2 = 1.30×10−8 N...

Two vectors are defined by F1 = 2.60×10−8 N at 130.°, and F2 = 1.30×10−8 N at 15.0°. Note that all angles are measured counter-clockwise relative to the x-axis. Draw xy axes, and then draw your two vectors. Label the angles. Use your drawing to find the x- and y-components of F1 F1x = ? F1y = ? Use your drawing to find the x- and y-components of F2 F2x = ?   F2y = ? Draw a graphical representation of...

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

Three forces act on an object (at the origin of a rectangular coordinate system). Force one, F1, has a magnitude of 5.81 N and a direction Theta1 = 77.0 degrees, force two, F2, has a magnitude of 4.88 N and a direction of Theta2, = 156 degrees, and a force three F3, has a magnitude of 4.52 N and a direction of Theta 3 = 289 degrees. add these three vectors using the component method of vector addition. Call the...

Consider four vectors F⃗1, F⃗2, F⃗3, and F⃗4, with magnitudes F1 =53N, F2 =32N, F3 =...

Consider four vectors F⃗1, F⃗2, F⃗3, and F⃗4, with magnitudes F1 =53N, F2 =32N, F3 = 10N, andF4 =65N, andθ1 =130◦, θ2 = −150◦, θ3 = 40◦, and θ4 = −66◦, measured from the positive x axis with the counter- clockwise angular direction as positive. What is the magnitude of the resultant vector ∥F⃗∥,whereF⃗ =F⃗1 +F⃗2 +F⃗3 +F⃗4? Answer in units of N.

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...

Three forces acting on an object are given by F1 = (−1.9î + 6.25ĵ) N, F2...

Three forces acting on an object are given by F1 = (−1.9î + 6.25ĵ) N, F2 = (4.60î − 2.4ĵ) N, and F3 = (−50î) N. The object experiences an acceleration of magnitude 3.90 m/s2. (a) What is the direction of the acceleration? (b) What is the mass of the object? (c) If the object is initially at rest, what is its speed after 17.0 s? (d) What are the velocity components of the object after 17.0 s? (Let the...

In the vector addition experiment, of a force table, we have two forces F1 = 350...

In the vector addition experiment, of a force table, we have two forces F1 = 350 N and F2 located at 0 ° and 90 ° respectively, the balancing force was found with a magnitude of Fequil = 800N. Find R, F2 and the angle Ѳ ° (angle of the resulting force) through the analytical method.

Three forces acting on an object are given by F1 = (−1.55î + 7.15ĵ) N, F2...

Three forces acting on an object are given by F1 = (−1.55î + 7.15ĵ) N, F2 = (5.10î − 1.4ĵ) N, and F3 = (−43.5î) N. The object experiences an acceleration of magnitude 3.55 m/s2. a. What is the direction of the acceleration? (Counterclockwise from the x-axis) b. What is the mass of the object? (kg) c. If the object is initially at rest, what is its speed after 17.0 s? d. What are the velocity components of the object...

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...

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...