Velocity, Acceleration & Projectile Motion Physic Final Review Velocity, Acceleration & Projectile Motion
Which graph best represents a positive acceleration? [IMAGE] 1. 2. 4. 3. 10
Students studied a graph of the motion of a toy car Students studied a graph of the motion of a toy car. What is the acceleration of the toy car in the time interval between 15 and 20 seconds? [IMAGE] 1. 2. 4. 3. 10
2 to 3 seconds 4 to 5 seconds 5 to 6 seconds 9 to 10 seconds The graph shows the velocity of two different cars during a period of ten seconds. During which time interval is the acceleration of Car 1 equal to zero relative to Car 2. 2 to 3 seconds 4 to 5 seconds 5 to 6 seconds 9 to 10 seconds 10
The graph shows the velocity of a vehicle recorded during a 4 hour time. Which part of the graph shows the greatest acceleration rate? 1 2 3 4 10
Diana hangs a lead cylinder with a force of 12 N from a model bridge Diana hangs a lead cylinder with a force of 12 N from a model bridge. Which vector(s) accurately illustrate the reaction force of the bridge on the lead cylinder? [IMAGE] 1. 2. 3. 4. 10
Andrew has several tables filled with data describing moving objects Andrew has several tables filled with data describing moving objects. Which table has data that describes an accelerating object? [IMAGE] 1. 2. 3. 4. 10
Which graph best represents a constant acceleration? [IMAGE] 1. 2. 3. 4. 10
A student observes an object moving. A graph of the movement is shown A student observes an object moving. A graph of the movement is shown. Which best describes the motion depicted on the graph? The object moves forward in a arc that extends to the left of the observer at a faster rate. The object accelerates away from the observer from left to right before coming to a complete stop. The object starts behind the observer and moves past the observer before returning to the starting point. The object moves with a constant velocity in the negative direction then the positive direction then negative again.
210 km/hr 110 km/hr 100 km/hr 10 km/hr 10 Car 1 is moving north at 100 kilometers per hour (km/hr). Car 2 passes Car 1 by moving at 110 km/hr in the same direction. From the frame of reference of the driver in Car 1, how fast is Car 2 going? 210 km/hr 110 km/hr 100 km/hr 10 km/hr 10
10 km/h south 15 km/h north 25 km/h south 35 km/h north A boat travels north at a rate of 25 kilometers per hour (km/h) relative to the current of the river. The current of the river moves south at a rate of 10 km/h relative to the ground. What is the rate of motion of the boat relative to the ground? 10 km/h south 15 km/h north 25 km/h south 35 km/h north
3 km/hr 12 km/hr 347 km/hr 353 km/hr A plane is flying east at a velocity of 350 km/hr. A passenger on the plane walks towards the rear of the plane at 3 km/hr. What is the passenger’s velocity relative to the captain who is flying the plane? 3 km/hr 12 km/hr 347 km/hr 353 km/hr
To avoid a time delay, the larger jet refuels the smaller jet To avoid a time delay, the larger jet refuels the smaller jet. What must the speed of the two jets be relative to the ground? The smaller jet must be faster to align with the fuelling jet. The fuelling jet must be faster to avoid spilling. The speed must change depending on altitude. The speed must be the same for both jets.
An observer is watching a passenger moving on a moving sidewalk at the airport. The observer knows that the sidewalk is moving at 5 km/h yet the passenger appears to be moving at 12 km/h. Which would best explain what the observer sees? The passenger is moving 7 km/h in the same direction of the sidewalk. The passenger is moving 5 km/h in the same direction of the sidewalk. The passenger is moving 7 km/h in the opposite direction of the sidewalk. The passenger is moving 12 km/h in the opposite direction of the sidewalk.
Two students are riding bicycles Two students are riding bicycles. The diagram shows their relative rates of motion. What is the westward rate of motion of Student 1 relative to the ground? 8 km/h 12 km/h 20 km/h 32 km/h
A book is lying on a seat in a car that is moving at 50 kilometers per hour (km/h). The driver says that the book is not moving. An outside observer says the book is moving at 50 km/h because it is in the car. Which is the most logical conclusion for these two statements? Motion is detected only if the car accelerates and is measured by the observer. Motion is absolute, and the driver is incorrect saying that the book has no motion. Motion is relative to a given frame of reference, and both the driver and observer are correct. Motion is constantly changing so neither person’s statement will be correct when the car slows down.
2 km/hr 12 km/hr 125 km/hr 127 km/hr A train is moving south at 120 kilometers per hour (km/hr). Javier is walking at 5 km/hr relative to the train. Kassandra is moving toward the back of the train at 7 km/hr. From Kassandra’s frame of reference, how fast is Javier moving? 2 km/hr 12 km/hr 125 km/hr 127 km/hr
the bus passenger moving 0.2 km/hr east A bus is moving east at a velocity of 100 km/hr. A passenger on the bus walks towards the front of the bus at 7 km/hr. A police officer is standing on the sidewalk as the bus passes. The passenger’s relative velocity is 107 km/hr to which person? the driver of the bus the bus passenger moving 0.2 km/hr east the passenger in a car passing the bus at 120 km/hr the police officer standing on the street as the bus passes
140 km/hr 24 km/hr 14 km/hr 4 km/hr The current of a river is flowing south at a speed of 10 kilometers per hour (km/hr). The speedometer on a motorboat moving north indicates the speed of the boat to be 14 km/hr. A person is traveling north on a bicycle along the riverbank. How fast must the bicycle rider travel so the boat and bicycle appear to be moving at the same speed to an observer on the shore? 140 km/hr 24 km/hr 14 km/hr 4 km/hr
Dave is walking from the back of a train to the front of the train at a rate of 6 kilometers per hour (km/h). The train is traveling at a rate of 42 km/h. What is Dave’s speed, relative to the ground? 7 km/h 36 km/h 48 km/h 252 km/h