Vector example sentences
Related (8): magnitude, direction, force, velocity, displacement, position, acceleration, momentum
"Vector" Example Sentences
Common Phases
1. The virus spreads through multiple vectors such as airborne droplets and contaminated surfaces.
2. The force vector points in the direction of the applied force.
3. The two vectors are at right angles to each other.
4. The position vector provides the location of the particle relative to the origin.
5. The force vectors add together according to the parallelogram law of vector addition.
6. We can decompose the velocity vector into its horizontal and vertical components.
7. I multiplied the direction vector by the magnitude to get the full vector.
8. The magnitude and direction of the displacement vector determine the distance and direction of travel.
9. The acceleration vector provides both the magnitude and direction of the acceleration.
10. The unit vector points in the direction of the vector.
11. Their plan aimed to tackle social problems through multiple vectors of change.
12. The acceleration is the time derivative of the velocity vector.
13. The angle between the two vectors can be calculated using the dot product.
14. We represented the position vector graphically using vectors drawn from the origin.
15. She is working to reduce health disparities through multiple vectors of intervention.
16. The vector addition problem has multiple solutions.
17. The force vectors combine to give the net force vector.
18. The velocity vector can change in both magnitude and direction over time.
19. The cross product of two vectors yields a vector perpendicular to both.
20. The scalar projection of one vector onto another provides a vector's magnitude along that direction.
21. They found effective changes required multiple vectors of coordinated action.
22. The derived data vector reduced the dimensionality of the data.
23. The position vector is defined relative to a chosen origin.
24. A unit vector has a magnitude of one and points in the direction of the vector.
25. The displacement vector equals the final position vector minus the initial position vector.
26. The direction vector points from the tail to the head of the vector.
27. The force vectors combined to give the net force vector, which was zero.
28. His research examines various vectors of social change.
29. The acceleration vector represents the rate of change of the velocity vector.
30. The unit vectors i, j, and k represent the standard basis vectors.
31. The velocity vector and position vector are at right angles.
32. The resultant vector is the vector sum of all input vectors.
33. The force vectors oppose each other, resulting in equilibrium.
34. We intended to mobilize social change through multiple vectors of influence.
35. The vector product yields the shortest distance between two points.
36. The magnitude of a vector is the length of the vector.
37. The vector sum of two vectors is their vector difference.
38. The unit vectors form an orthogonal basis set.
39. The direction cosines relate the vector to the coordinate axes.
40. The components of the force vector determine the torque.
41. The vector fields demonstrate complex interactions between forces.
42. The velocity vector at any point equals the derivative of the position vector.
43. The principles of vector algebra include vector addition and subtraction, scalar multiplication, and dot and cross products.
44. The location of a vector in space is given by its position vector.
45. The vector sum of two forces acting at the same point equals the net force.
46. The vectorial components define the direction and magnitude of a vector.
47. Vector spaces have properties such as closure under vector addition and scalar multiplication.
48. She examined multiple vectors of institutional reform.
49. The phase space vectors represent all possible system states.
50. The vector product results in a vector of magnitude equal to the magnitudes of the input vectors times the sine of the angle between them.
51. The position vector locates a point relative to an origin.
52. The angular velocity vector determines a body's rate of rotation.
53. The linear momentum vector tells us both the direction and magnitude of an object's momentum.
54. They intended reforms through multiple vectors of policy change.
55. We added vectors graphically by drawing them head to tail.
56. The bracket product yields a scalar quantity from two input vectors.
57. The influence vector represents the net influence of interconnected variables.
58. The dot product between two vectors equals the product of their magnitudes times the cosine of the angle between them.
59. The resultant velocity vector combines the initial velocity vector and acceleration vector.
60. The vectors decompose into components along the coordinate axes.