Mr. Porter and his wife walk from Nighthawks to Troy Savings Bank Music Hall. They walk 6 blocks East and then 2 Blocks South. [1 Block = 100 Meters]
Vectors are added "tip to tail", that is redraw the vectors so that the tip of one vector is attached to the tail of the second vector.
The resultant vector S is equal to the addition of vectors a and b
Mr. Porter's brother is on a hike. He walks:
Draw a the vector addition diagram to represent this motion
You can sum the components of the two vectors to find the components of the resultant vector
If
Mac and Tosh are doing the Vector Walk Lab. Starting at the door of their physics classroom, they walk 2.0 meters, south. They make a right hand turn and walk 16.0 meters, west. They turn right again and walk 24.0 meters, north. They then turn left and walk 36.0 meters, west. What is the magnitude of their overall displacement?
A graphical representation of the given problem will help visualize what is happening. The diagram below depicts such a representation.
Max plays middle linebacker for South's football team. During one play in last Friday night's game against New Greer Academy, he made the following movements after the ball was snapped on third down. First, he back-pedaled in the southern direction for 2.6 meters. He then shuffled to his left (west) for a distance of 2.2 meters. Finally, he made a half-turn and ran downfield a distance of 4.8 meters in a direction of 240° counter-clockwise from east (30° W of S) before finally knocking the wind out of New Greer's wide receiver. Determine the magnitude and direction of Max's overall displacement.
This..
Becomes...
Vector | ||
---|---|---|
Resultant |
Two toy trucks roll off the ends of identical tables. The speeds and masses of the trucks are given.
Will Truck A be in the air for (i) a longer time, (ii) a shorter time, or (iii) the same time as Truck B before it reaches the floor?
Explain your reasoning.
Two toy trucks roll off the ends of identical tables. The speeds and masses of the trucks are given.
Will Truck A be in the air for (i) a longer time, (ii) a shorter time, or (iii) the same time as Truck B before it reaches the floor?
Explain your reasoning.
Horizontal Motion | Vertical Motion | |
---|---|---|
Forces (Present? - Yes or No) (If present, what dir'n?) |
No | Yes The force of gravity acts downward |
Acceleration (Present? - Yes or No) (If present, what dir'n?) |
No | Yes |
Velocity (Constant or Changing?) |
Constant | Changing (by 9.8 m/s each second) |
A pool ball leaves a 0.60-meter high table with an initial horizontal velocity of 2.4 m/s. Predict the time required for the pool ball to fall to the ground and the horizontal distance between the table's edge and the ball's landing location.
In many locations, old abandoned stone quarries have become filled with water once excavating has been completed. While standing on a quarry wall, a boy tosses a piece of granite into the water below. If he throws the rock horizontally with a velocity of 3.0 m/s, and it strikes the water 4.5 meters away, how high above the water is the wall?
Suppose that an airplane flying 60 m/s, at a height of 300 meters, dropped a sack of flour. How far from the point of release would the sack have traveled when it struck the ground? Where will the plane be in relation to the sack when it hits the ground?
A stone is thrown horizontally to the right at a speed of 17.2 m/s from the top of a cliff that is 91.4 m high. Consider up and to the right positive directions.
Equipment:
Cannonballs of different masses are shot from cannons at various angles above the horizontal. The velocity of each cannonball as it leaves the cannon is given, along with the horizontal component of that velocity, which is the same.
Rank the horizontal distance traveled by the cannonballs.
Cannonballs with different masses are shot from cannons at various angles above the horizontal. The velocity of each cannonball as it leaves the cannon is given, along with the same vertical component of that velocity.
Rank the time the cannonballs are in the air.
A motorboat traveling 4 m/s, East encounters a current traveling 3.0 m/s, North.