# Physics equations/03-Two-Dimensional Kinematics/Q:2Dmotion/Testbank

## a03_2Dkinem_2dmotion_v1

A ball is kicked horizontally from a height of 2.3 m, at a speed of 7.8m/s. How far does it travel before landing?

 a) 3.09 m. b) 3.71 m. c) 4.45 m. d) 5.34 m. e) 6.41 m.

copies
```===2===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.7 m, at a speed of   7.5m/s.  How far does it travel before landing?}
-a) 3.22 m.
-b) 3.87 m.
-c) 4.64 m.
+d) 5.57 m.
-e) 6.68 m.
===3===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.2 m, at a speed of   9.8m/s.  How far does it travel before landing?}
+a) 6.57 m.
-b) 7.88 m.
-c) 9.46 m.
-d) 11.35 m.
-e) 13.62 m.
===4===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.9 m, at a speed of   7.4m/s.  How far does it travel before landing?}
-a) 4.74 m.
+b) 5.69 m.
-c) 6.83 m.
-d) 8.2 m.
-e) 9.84 m.
===5===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.6 m, at a speed of   7.7m/s.  How far does it travel before landing?}
-a) 4.67 m.
+b) 5.61 m.
-c) 6.73 m.
-d) 8.08 m.
-e) 9.69 m.
===6===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.8 m, at a speed of   7.9m/s.  How far does it travel before landing?}
-a) 3.46 m.
-b) 4.15 m.
-c) 4.98 m.
+d) 5.97 m.
-e) 7.17 m.
===7===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 3 m, at a speed of   7.6m/s.  How far does it travel before landing?}
-a) 2.87 m.
-b) 3.44 m.
-c) 4.13 m.
-d) 4.96 m.
+e) 5.95 m.
===8===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2.5 m, at a speed of   8.7m/s.  How far does it travel before landing?}
-a) 3.6 m.
-b) 4.32 m.
-c) 5.18 m.
+d) 6.21 m.
-e) 7.46 m.
===9===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2 m, at a speed of   6.2m/s.  How far does it travel before landing?	}
-a) 2.75 m.
-b) 3.3 m.
+c) 3.96 m.
-d) 4.75 m.
-e) 5.7 m.
===10===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 2 m, at a speed of   7.7m/s.  How far does it travel before landing?}
-a) 2.85 m.
-b) 3.42 m.
-c) 4.1 m.
+d) 4.92 m.
-e) 5.9 m.
===11===
{<!--a03_2Dkinem_2dmotion_1-->A ball is kicked horizontally from a height of 3 m, at a speed of   10m/s.  How far does it travel before landing?}
-a) 6.52 m.
+b) 7.82 m.
-c) 9.39 m.
-d) 11.27 m.
-e) 13.52 m.
```

## a03_2Dkinem_2dmotion_v1

A particle is initially at the origin and moving in the x direction at a speed of 3.7 m/s. It has an constant acceleration of 2.3 m/s2 in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.8 s?

 a) 51.62 degrees. b) 59.37 degrees. c) 68.27 degrees. d) 78.51 degrees. e) 90.29 degrees.

copies
```===2===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4.3 m/s.  It has an constant acceleration of 2.2 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.3 in the x direction. What angle does the velocity make with the x axis at time t = 2.8 s?}
-a) 37.93 degrees.
-b) 43.62 degrees.
+c) 50.16 degrees.
-d) 57.68 degrees.
-e) 66.33 degrees.
===3===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4.3 m/s.  It has an constant acceleration of 1.8 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.3 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?}
-a) 36.26 degrees.
+b) 41.7 degrees.
-c) 47.96 degrees.
-d) 55.15 degrees.
-e) 63.43 degrees.
===4===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s.  It has an constant acceleration of 2.3 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.7 s?}
-a) 32.04 degrees.
-b) 36.85 degrees.
-c) 42.37 degrees.
+d) 48.73 degrees.
-e) 56.04 degrees.
===5===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 3.7 m/s.  It has an constant acceleration of 1.5 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.1 s?}
-a) 21.32 degrees.
-b) 24.51 degrees.
-c) 28.19 degrees.
+d) 32.42 degrees.
-e) 37.28 degrees.
===6===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s.  It has an constant acceleration of 1.9 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.9 in the x direction. What angle does the velocity make with the x axis at time t = 2.4 s?}
-a) 27.27 degrees.
-b) 31.37 degrees.
+c) 36.07 degrees.
-d) 41.48 degrees.
-e) 47.7 degrees.
===7===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s.  It has an constant acceleration of 1.9 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?}
-a) 37.12 degrees.
+b) 42.69 degrees.
-c) 49.09 degrees.
-d) 56.45 degrees.
-e) 64.92 degrees.
===8===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4 m/s.  It has an constant acceleration of 1.8 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.7 s?}
+a) 40.85 degrees.
-b) 46.98 degrees.
-c) 54.03 degrees.
-d) 62.13 degrees.
-e) 71.45 degrees.
===9===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 3.8 m/s.  It has an constant acceleration of 2.1 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?	}
-a) 31.37 degrees.
-b) 36.07 degrees.
-c) 41.48 degrees.
+d) 47.71 degrees.
-e) 54.86 degrees.
===10===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s.  It has an constant acceleration of 1.5 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.7 in the x direction. What angle does the velocity make with the x axis at time t = 2.2 s?}
-a) 17.34 degrees.
-b) 19.94 degrees.
-c) 22.94 degrees.
-d) 26.38 degrees.
+e) 30.33 degrees.
===11===
{<!--a03_2Dkinem_2dmotion_2-->A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s.  It has an constant acceleration of 2.2 m/s<sup>2</sup> in the y direction, as well as an acceleration of  0.8 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?}
-a) 26.14 degrees.
-b) 30.07 degrees.
-c) 34.58 degrees.
-d) 39.76 degrees.
+e) 45.73 degrees.
```

## a03_2Dkinem_2dmotion_v1

At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.29 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.75 m, and moves at a constant speed of 2.98 m/s in the +y direction. At what time do they meet?

 a) 0.24 s. b) 0.29 s. c) 0.34 s. d) 0.41 s. e) 0.5 s.

copies
```===2===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.42 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.89 m, and moves at a constant speed of 2.26 m/s in the +y direction.   At what time do they meet?}
-a) 0.49 s.
+b) 0.59 s.
-c) 0.7 s.
-d) 0.84 s.
-e) 1.01 s.
===3===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 7.03 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.12 m, and moves at a constant speed of 2 m/s in the +y direction.   At what time do they meet?}
-a) 0.15 s.
-b) 0.18 s.
-c) 0.22 s.
-d) 0.26 s.
+e) 0.31 s.
===4===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 6.54 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.91 m, and moves at a constant speed of 2.42 m/s in the +y direction.   At what time do they meet?}
+a) 0.48 s.
-b) 0.57 s.
-c) 0.69 s.
-d) 0.83 s.
-e) 0.99 s.
===5===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.43 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.49 m, and moves at a constant speed of 2.75 m/s in the +y direction.   At what time do they meet?}
-a) 0.26 s.
-b) 0.31 s.
-c) 0.37 s.
-d) 0.44 s.
+e) 0.53 s.
===6===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.86 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.46 m, and moves at a constant speed of 2.23 m/s in the +y direction.   At what time do they meet?}
+a) 0.45 s.
-b) 0.54 s.
-c) 0.65 s.
-d) 0.78 s.
-e) 0.94 s.
===7===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 6.76 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.65 m, and moves at a constant speed of 2.8 m/s in the +y direction.   At what time do they meet?}
-a) 0.21 s.
-b) 0.25 s.
-c) 0.3 s.
-d) 0.36 s.
+e) 0.43 s.
===8===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 7.34 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.22 m, and moves at a constant speed of 2.91 m/s in the +y direction.   At what time do they meet?}
-a) 0.23 s.
-b) 0.27 s.
+c) 0.33 s.
-d) 0.4 s.
-e) 0.47 s.
===9===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.49 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.35 m, and moves at a constant speed of 2.6 m/s in the +y direction.   At what time do they meet?	}
-a) 0.41 s.
+b) 0.49 s.
-c) 0.58 s.
-d) 0.7 s.
-e) 0.84 s.
===10===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.94 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.92 m, and moves at a constant speed of 2.89 m/s in the +y direction.   At what time do they meet?}
-a) 0.33 s.
-b) 0.39 s.
-c) 0.47 s.
+d) 0.56 s.
-e) 0.68 s.
===11===
{<!--a03_2Dkinem_2dmotion_3-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 6.1 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.79 m, and moves at a constant speed of 2.87 m/s in the +y direction.   At what time do they meet?}
-a) 0.43 s.
+b) 0.52 s.
-c) 0.62 s.
-d) 0.75 s.
-e) 0.9 s.
```

## a03_2Dkinem_2dmotion_v1

At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.17 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.04 m, and moves at a constant speed of 2.52 m/s in the +y direction. What is the value of θ (in radians)?

copies
```===2===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.15 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.05 m, and moves at a constant speed of 2.94 m/s in the +y direction.   What is the value of θ (in radians)?}
===3===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 8.02 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.27 m, and moves at a constant speed of 2.5 m/s in the +y direction.   What is the value of θ (in radians)?}
===4===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.19 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.76 m, and moves at a constant speed of 2.86 m/s in the +y direction.   What is the value of θ (in radians)?}
===5===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.11 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.69 m, and moves at a constant speed of 2.23 m/s in the +y direction.   What is the value of θ (in radians)?}
===6===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 7.18 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.15 m, and moves at a constant speed of 2.88 m/s in the +y direction.   What is the value of θ (in radians)?}
===7===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 6.27 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.38 m, and moves at a constant speed of 2.94 m/s in the +y direction.   What is the value of θ (in radians)?}
===8===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.72 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2 m, and moves at a constant speed of 2.02 m/s in the +y direction.   What is the value of θ (in radians)?}
===9===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 5.42 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.27 m, and moves at a constant speed of 2.17 m/s in the +y direction.   What is the value of θ (in radians)?	}
===10===
{<!--a03_2Dkinem_2dmotion_4-->At time, t=0, two particles are on the x axis.  Particle A is  (initially) at the origin and moves at a constant speed of 8.61 m/s at an angle of θ above the x-axis.  Particle B is initially situated at x= 2.5 m, and moves at a constant speed of 2.43 m/s in the +y direction.   What is the value of θ (in radians)?}