Homework Answers
first of all convert the unit of force in gram weight
1 newton earth (N) = 101.97 grams (g)
so, F1 = 200 gram
F2 = 150 g
F3 = 249 g
procedure :-
1) Draw force F1 of magnitude 200 g from origin along x axis (2 cm) as OA.
2) fom point P draw another vector F2 of magnitude
150 gram(1.5 cm) making angle 
90 as vector
BC
3) from point B draw vector of F3 of magnitude 2.49 gram making an angle of 217 from x- axis denote as vector BC... hence, we get required polygon
No, graph is not completely closed..so there is presence of some error .
Add Answer to:
Please graph each vector, and display the percent error using
a dotted line next to the...
Please graph each vector and display the percent error as a dotted line next to the...
Please graph each vector and display the percent error
as a dotted line next to the experimental vector (F4). Please
follow instructions given as well. Thank you!
MASS (KG) 0.200 0.150 FORCE VECTOR F1 F2 F3 DIRECTION 20° 80° 05 y-COMPONENT 0. 67 1.45 o.% 1.47 2.93 30 SUM OF X AND y COMPONENTS % enant, on %
Course Contents » » Hw #5 (due Sun 2/24 at 11pm) » force-num-vector-addition02.problem Forces F1 and...
Course Contents » » Hw #5 (due Sun 2/24 at 11pm) » force-num-vector-addition02.problem Forces F1 and F2 act on a mass m 0.64 kg, as shown in the diagram below The magnitudes of the forces and angles are as follows: F1 1.7 N, 01-15 degrees F2-1.9 N, θ2-62 degrees F2 Fi What are the x and y components of the force F1? Submit Answer Tries 0/2 What are the x and y components of the force F2? Submit Answer Tries...
Interactive Exercises 5.01: Vector Addition of Forces Here is some practice finding the net force acting...
Interactive Exercises 5.01: Vector Addition of Forces Here is some practice finding the net force acting on a particle. The simulation (linked below) shows an overhead view of a hockey puck that is initially at rest on an ice rink. The puck is located at the origin of an xy coordinate system. One person applies force blue arrow with fixed magnitude and direction acts on the puck particle at the origin. Another person applies a second force F2 (blue arrow)...
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise...
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise from the positive x axis. Calculate the x and y components of this vector. 9. A vector has an x component of -25.0 units and a y component of 40.0 units. Find the magnitude and direction of this vector. 10. A force ? 1 of magnitude 6.00 newtons acts on an object at the origin in a direction θ = 30.0° above the positive...
Solve all parts thanks <Extra Credit 2 Force Vector Directed along a Line Three-dimensional Cartesian force...
Solve all parts
thanks
<Extra Credit 2 Force Vector Directed along a Line Three-dimensional Cartesian force vectors are used throughout engineering mechanics. The generic force vector is represented as follows: F= F,i+Fyj + F kwhere F is the force vector and Fr, Fy, and F, are the vector's i, j, and k components, respectively. The force vector has a magnitude F F2 +F3 + F2. The vector's I 1 Figure < 1 of 2 > C 13/12 5 F =...
The diagram doesnt allow me to paste it here. It is a diagonal line with F1...
The diagram doesnt allow me to paste it here. It is a diagonal
line with F1 pointing to the right and F2 pointing the opposite
direction. F1=-F2.
Two particles, 1 and 2, with masses m1 =
8×10-25 kg and m2 =
9×10-25 kg, are constrained to move in the x-y plane.
They interact by a repulsive central force,
F=k/r122,
where r12 is the distance between the
particles. The diagram shows the situation.
The force on particle 2 is given by...
10. What are the and the resulting What are the the velocity components of the mass...
10. What are the and the resulting What are the the velocity components of the mass after 4.251 seconds of acceleration v magnitude 1d. What are the magnitude and direction of the acceleration of the mass after 4.251 seconds of acceleration? v direction le. What are the x and y coordinates of the mass after 4.251 seconds of acceleration? R 1f. What are the magnitude and direction of the displacement vector R of the mass after 4.251 seconds of acceleration?...
Need help solving these please Write the vector shown above as a linear combination of 7...
Need help solving these please
Write the vector shown above as a linear combination of 7 and 3. Vector * { + j Note: In the graph, each box is 1 unit by 1 unit in size. A vector with magnitude 7 points in a direction 265 degrees counterclockwise from the positive x axis. Write the vector in component form, and show your answers accurate to 3 decimal places. Vector Given = 57 + 4j and p=6i + 3, find...
Ah arbnrary number nents, and all 2-companents separately to f of vector ately to find x-, y"r z-...
how do you do 7 and 8 ?
ah arbnrary number nents, and all 2-companents separately to f of vector ately to find x-, y"r z-components of the resultant vector. B) Break the (given) vectors down into their x-, y, and 2-componerto c) Combine total x, y-, and z-components using Pythagorean Thetee sine the resultant vector and use tangent to determine its angle. and cosines nd the magnitude of Graphical Representation of Vectors You will need o ruler, graph poper,...
(2.2 Coaching Activity Three-dimensional Force Systems 4 of 5 > II Review Four forces are shown:...
(2.2 Coaching Activity Three-dimensional Force Systems 4 of 5 > II Review Four forces are shown: F1, F2, F3, and F4. (Figure 1) Classify the x, y, and z components of each vector as being less than zero. equal to zero, or greater than zero. Drag the appropriate items to their respective bins. Learning Goal: To use the conditions of equilibrium to solve for unknown forces in a three-dimensional force system. For particle equilibrium, the sum of all forces must...
Please graph each vector and display the percent error
as a dotted line next to the experimental vector (F4). Please
follow instructions given as well. Thank you!
MASS (KG) 0.200 0.150 FORCE VECTOR F1 F2 F3 DIRECTION 20° 80° 05 y-COMPONENT 0. 67 1.45 o.% 1.47 2.93 30 SUM OF X AND y COMPONENTS % enant, on %
Course Contents » » Hw #5 (due Sun 2/24 at 11pm) » force-num-vector-addition02.problem Forces F1 and F2 act on a mass m 0.64 kg, as shown in the diagram below The magnitudes of the forces and angles are as follows: F1 1.7 N, 01-15 degrees F2-1.9 N, θ2-62 degrees F2 Fi What are the x and y components of the force F1? Submit Answer Tries 0/2 What are the x and y components of the force F2? Submit Answer Tries...
Interactive Exercises 5.01: Vector Addition of Forces Here is some practice finding the net force acting on a particle. The simulation (linked below) shows an overhead view of a hockey puck that is initially at rest on an ice rink. The puck is located at the origin of an xy coordinate system. One person applies force blue arrow with fixed magnitude and direction acts on the puck particle at the origin. Another person applies a second force F2 (blue arrow)...
Solve all parts
thanks
<Extra Credit 2 Force Vector Directed along a Line Three-dimensional Cartesian force vectors are used throughout engineering mechanics. The generic force vector is represented as follows: F= F,i+Fyj + F kwhere F is the force vector and Fr, Fy, and F, are the vector's i, j, and k components, respectively. The force vector has a magnitude F F2 +F3 + F2. The vector's I 1 Figure < 1 of 2 > C 13/12 5 F =...
The diagram doesnt allow me to paste it here. It is a diagonal
line with F1 pointing to the right and F2 pointing the opposite
direction. F1=-F2.
Two particles, 1 and 2, with masses m1 =
8×10-25 kg and m2 =
9×10-25 kg, are constrained to move in the x-y plane.
They interact by a repulsive central force,
F=k/r122,
where r12 is the distance between the
particles. The diagram shows the situation.
The force on particle 2 is given by...
10. What are the and the resulting What are the the velocity components of the mass after 4.251 seconds of acceleration v magnitude 1d. What are the magnitude and direction of the acceleration of the mass after 4.251 seconds of acceleration? v direction le. What are the x and y coordinates of the mass after 4.251 seconds of acceleration? R 1f. What are the magnitude and direction of the displacement vector R of the mass after 4.251 seconds of acceleration?...
Need help solving these please
Write the vector shown above as a linear combination of 7 and 3. Vector * { + j Note: In the graph, each box is 1 unit by 1 unit in size. A vector with magnitude 7 points in a direction 265 degrees counterclockwise from the positive x axis. Write the vector in component form, and show your answers accurate to 3 decimal places. Vector Given = 57 + 4j and p=6i + 3, find...
how do you do 7 and 8 ?
ah arbnrary number nents, and all 2-companents separately to f of vector ately to find x-, y"r z-components of the resultant vector. B) Break the (given) vectors down into their x-, y, and 2-componerto c) Combine total x, y-, and z-components using Pythagorean Thetee sine the resultant vector and use tangent to determine its angle. and cosines nd the magnitude of Graphical Representation of Vectors You will need o ruler, graph poper,...
(2.2 Coaching Activity Three-dimensional Force Systems 4 of 5 > II Review Four forces are shown: F1, F2, F3, and F4. (Figure 1) Classify the x, y, and z components of each vector as being less than zero. equal to zero, or greater than zero. Drag the appropriate items to their respective bins. Learning Goal: To use the conditions of equilibrium to solve for unknown forces in a three-dimensional force system. For particle equilibrium, the sum of all forces must...
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