Physical Science - 4th Grade Science
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Which household item is an example of energy being transferred as sound?
Which household item is an example of energy being transferred as sound?
All of these items are household items that use or transfer different types of energy. The only object that transfers energy as sound is an alarm clock. An alarm clock is powered with electricity and then produces a sound when set to wake someone up at a particular time. Vibrations in the air create the soundwaves it provides.
All of these items are household items that use or transfer different types of energy. The only object that transfers energy as sound is an alarm clock. An alarm clock is powered with electricity and then produces a sound when set to wake someone up at a particular time. Vibrations in the air create the soundwaves it provides.
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Sound energy decreases over distance as it is transferred through matter.
Sound energy decreases over distance as it is transferred through matter.
Matter is made up of particles, and energy can be transferred through these particles. Sound energy decreases the further the distance required to travel. As the sound is transferred through matter, it will sound softer and more difficult to hear if the distance between speaker and listener is increased.
Matter is made up of particles, and energy can be transferred through these particles. Sound energy decreases the further the distance required to travel. As the sound is transferred through matter, it will sound softer and more difficult to hear if the distance between speaker and listener is increased.
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If a bike traveled 
in 
, how fast was the bike traveling?
If a bike traveled
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
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If a bike traveled 
in 
, how fast was the bike traveling?
If a bike traveled
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
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If a bike traveled 
in 
, how fast was the bike traveling?
If a bike traveled
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
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If a bike traveled 
in 
, how fast was the bike traveling?
If a bike traveled
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
To answer this question, we need to recall the formula for speed:
We can plug in the known values from the question to solve:
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Glen and his friends Liam and London are going sledding at a local park. There are two hills to choose from, "The Bunny Slopes," which are small hills and lots of flat surfaces, and "The Dragon," which is a steep hill and not for beginners. Glen crashes a lot, and his friends are a little nervous. If Glen were to crash into Liam and London when they were sledding, how would the crash be different on "The Bunny Slopes" than "The Dragon"?
Glen and his friends Liam and London are going sledding at a local park. There are two hills to choose from, "The Bunny Slopes," which are small hills and lots of flat surfaces, and "The Dragon," which is a steep hill and not for beginners. Glen crashes a lot, and his friends are a little nervous. If Glen were to crash into Liam and London when they were sledding, how would the crash be different on "The Bunny Slopes" than "The Dragon"?
When Glen sleds down both of these hills, he will be traveling at a speed relative to the slope of the hill and gravity's pull. "The Dragon" is a much steeper and longer decline, so Glen will have more time to gain speed, which means more energy behind the collision. If Liam and London are down at the end of the slope and Glen crashes into them, the force will drive both of their sleds forward and slow or stop Glen's sled. The faster Glen is going, the more energy he has behind the impact.
When Glen sleds down both of these hills, he will be traveling at a speed relative to the slope of the hill and gravity's pull. "The Dragon" is a much steeper and longer decline, so Glen will have more time to gain speed, which means more energy behind the collision. If Liam and London are down at the end of the slope and Glen crashes into them, the force will drive both of their sleds forward and slow or stop Glen's sled. The faster Glen is going, the more energy he has behind the impact.
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Peter sets up his toy train on the railroad tracks he has in a straight line. He has a tool to measure the speed the train is traveling in centimeters/second when he pushes it to go. He set a box at the end of the ramp for the train to crash into. He measures in centimeters how far the train pushes the box and records the data in a table.
What would happen to the distance the box moves if the train increases in speed?
Peter sets up his toy train on the railroad tracks he has in a straight line. He has a tool to measure the speed the train is traveling in centimeters/second when he pushes it to go. He set a box at the end of the ramp for the train to crash into. He measures in centimeters how far the train pushes the box and records the data in a table.
What would happen to the distance the box moves if the train increases in speed?
Peter’s investigation was testing how the distance a box moved would change as the speed of a toy train increased or decreased. The pattern within the data table shows that the higher the rate of the train, the further the box moved. An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the box moves also decreases. There is a direct relationship between speed and energy. So if he were to increase the speed of the train, the box would move a longer distance.
Peter’s investigation was testing how the distance a box moved would change as the speed of a toy train increased or decreased. The pattern within the data table shows that the higher the rate of the train, the further the box moved. An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the box moves also decreases. There is a direct relationship between speed and energy. So if he were to increase the speed of the train, the box would move a longer distance.
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Mihika and Craig are racing cars down different sloped ramps. Mihika's car traveled down Slope A and Craig's traveled down Slope B. Mihika's car traveled further than Craig's. Why did her car travel further than Craig's?
Mihika and Craig are racing cars down different sloped ramps. Mihika's car traveled down Slope A and Craig's traveled down Slope B. Mihika's car traveled further than Craig's. Why did her car travel further than Craig's?
Mihika's car traveled further than Craig's and the children are wondering why this happened. Mihika has a very steep slope to her ramp which allows her toy car to travel faster and further. The more speed that the car can generate the more energy it has, this will allow the car to move further.
Mihika's car traveled further than Craig's and the children are wondering why this happened. Mihika has a very steep slope to her ramp which allows her toy car to travel faster and further. The more speed that the car can generate the more energy it has, this will allow the car to move further.
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Mihika and Craig are racing cars down different sloped ramps. Mihika's car traveled down Slope A and Craig's traveled down Slope B. Mihika's car traveled further than Craig's. Craig wants to beat her in the next trial. What can he do to his ramp to make his car travel further?
Mihika and Craig are racing cars down different sloped ramps. Mihika's car traveled down Slope A and Craig's traveled down Slope B. Mihika's car traveled further than Craig's. Craig wants to beat her in the next trial. What can he do to his ramp to make his car travel further?
Mihika's car traveled further than Craig's because her ramp was steeper. This allowed her car to gain more speed and gravity to have more of a pull on the vehicle. More energy and speed will enable the car to travel faster and further. If Craig makes his ramp steeper, he will have a chance of beating Mihika in the next trial. In theory, if his ramp is steeper than Mihika's, he should be able to gain more speed and more energy so the car will travel further.
Mihika's car traveled further than Craig's because her ramp was steeper. This allowed her car to gain more speed and gravity to have more of a pull on the vehicle. More energy and speed will enable the car to travel faster and further. If Craig makes his ramp steeper, he will have a chance of beating Mihika in the next trial. In theory, if his ramp is steeper than Mihika's, he should be able to gain more speed and more energy so the car will travel further.
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Shakira ordered two bowling balls of the same size and type. She bought one pink ball and one orange ball. Shakira rolled each ball down the same lane at the bowling alley one time while a friend used her phone timer to measure the time it took for the balls to travel to the end of the lane. After rolling both balls down the same lane one time, they noticed that the pink ball made it to the end of the lane faster than the orange ball.
Which is the most likely reason that the pink ball moved faster than the orange ball?
Shakira ordered two bowling balls of the same size and type. She bought one pink ball and one orange ball. Shakira rolled each ball down the same lane at the bowling alley one time while a friend used her phone timer to measure the time it took for the balls to travel to the end of the lane. After rolling both balls down the same lane one time, they noticed that the pink ball made it to the end of the lane faster than the orange ball.
Which is the most likely reason that the pink ball moved faster than the orange ball?
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. If the pink ball had more force applied to it, then it would move faster down the lane when compared to the orange ball.
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. If the pink ball had more force applied to it, then it would move faster down the lane when compared to the orange ball.
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Peter sets up his toy train on the railroad tracks he has in a straight line. He has a tool to measure the speed the train is traveling in centimeters/second when he pushes it to go. He set a box at the end of the ramp for the train to crash into. He measures in centimeters how far the train pushes the box and records the data in a table.
What is Peter investigating in this experiment?
Peter sets up his toy train on the railroad tracks he has in a straight line. He has a tool to measure the speed the train is traveling in centimeters/second when he pushes it to go. He set a box at the end of the ramp for the train to crash into. He measures in centimeters how far the train pushes the box and records the data in a table.
What is Peter investigating in this experiment?
Peter’s investigation was testing how the distance a box moved would change as the speed of a toy train increased or decreased. The pattern within the data table shows that the higher the rate of the train, the further the box moved. An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the box moves also decreases. There is a direct relationship between speed and energy. So if he were to increase the speed of the train, the box would move a longer distance.
Peter’s investigation was testing how the distance a box moved would change as the speed of a toy train increased or decreased. The pattern within the data table shows that the higher the rate of the train, the further the box moved. An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the box moves also decreases. There is a direct relationship between speed and energy. So if he were to increase the speed of the train, the box would move a longer distance.
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Which of these has the most speed and energy?
Which of these has the most speed and energy?
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. A motorcycle driving down the road has the most speed and energy.
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. A motorcycle driving down the road has the most speed and energy.
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A pencil is on a teacher's desk.
Why does the pencil remain motionless and NOT fall to the ground?
A pencil is on a teacher's desk.
Why does the pencil remain motionless and NOT fall to the ground?
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. In this case, the pencil has no speed or kinetic energy of its own; the desk is exerting force upwards while gravity is exerting force downwards in equal amounts, so there is no change in motion for the pencil.
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. In this case, the pencil has no speed or kinetic energy of its own; the desk is exerting force upwards while gravity is exerting force downwards in equal amounts, so there is no change in motion for the pencil.
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Katie and Gordon were experimenting with two bowling balls. One of the bowling balls had a mass of 6 kilograms, and the other had a mass of 4 kilograms. They compared the force needed to roll each of the balls at the same speed. They also compared how much force it took to stop the balls when the balls were rolling at the same speed.
Which conclusion did the students MOST likely arrive at after experimenting with both bowling balls?
Katie and Gordon were experimenting with two bowling balls. One of the bowling balls had a mass of 6 kilograms, and the other had a mass of 4 kilograms. They compared the force needed to roll each of the balls at the same speed. They also compared how much force it took to stop the balls when the balls were rolling at the same speed.
Which conclusion did the students MOST likely arrive at after experimenting with both bowling balls?
Gordon and Katie most likely concluded that the bowling ball with the smaller mass was easiest to roll and stop than the ball with more mass. The smaller bowling ball would require less force to move and stop because it has less mass. The greater the mass, the more force is needed to make a change in motion.
Gordon and Katie most likely concluded that the bowling ball with the smaller mass was easiest to roll and stop than the ball with more mass. The smaller bowling ball would require less force to move and stop because it has less mass. The greater the mass, the more force is needed to make a change in motion.
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A group of students is investigating motion using a toy car, a ramp, and a plastic cup. The students place an empty plastic cup at the bottom of a ramp. Where on the ramp should the students release the car to push the plastic cup the farthest?
A group of students is investigating motion using a toy car, a ramp, and a plastic cup. The students place an empty plastic cup at the bottom of a ramp. Where on the ramp should the students release the car to push the plastic cup the farthest?
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. If the car is placed at the top of the ramp, it will have more force exerted on it from gravity pulling it towards the ground, more room to gather speed, and the steeper incline would allow for more force to be transferred to the plastic cup, therefore, moving it a further distance.
An inference can be made that the higher something’s speed is, the more energy it has. Higher amounts of energy will result in a more significant change of motion for the object it is acting on. When the speed decreases, the distance the object moves also decreases. There is a direct relationship between speed and energy. If the car is placed at the top of the ramp, it will have more force exerted on it from gravity pulling it towards the ground, more room to gather speed, and the steeper incline would allow for more force to be transferred to the plastic cup, therefore, moving it a further distance.
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When objects collide, the contact forces transfer energy so as to change the object's motions.
When objects collide, the contact forces transfer energy so as to change the object's motions.
The statement presented in the question is correct. If two objects collide, energy will be transferred between both, and there will be a change in motion. If I were to run into a friend at recess, we would both slow down and possibly fall backward or sideways due to the force of the impact. Objects can change speed, direction, or come to a complete stop because of a transfer of energy during a collision.
The statement presented in the question is correct. If two objects collide, energy will be transferred between both, and there will be a change in motion. If I were to run into a friend at recess, we would both slow down and possibly fall backward or sideways due to the force of the impact. Objects can change speed, direction, or come to a complete stop because of a transfer of energy during a collision.
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Karyssa is bowling with her friends, and she is looking at the pins when they each throw the ball. Looking at the pictures of the pins, Karyssa has to make a prediction of which ball she thinks had a greater speed upon collision and why?
Karyssa is bowling with her friends, and she is looking at the pins when they each throw the ball. Looking at the pictures of the pins, Karyssa has to make a prediction of which ball she thinks had a greater speed upon collision and why?
Both of these photos represent changes in energy during a collision. The ball is transferring energy to the pins when they make contact. Karyssa could predict based on the pictures and the positions of the pins, which she believed had a higher speed upon collision. When examining the photos, they both show pins falling and the ball making contact with the pins. The second photo shows the pins almost exploding at the end of the lane and flying through the air. A reasonable prediction could be made that this ball had higher speed upon collision because there was more energy transferred to the pins, and there was a more significant "reaction" when the crash took place.
Both of these photos represent changes in energy during a collision. The ball is transferring energy to the pins when they make contact. Karyssa could predict based on the pictures and the positions of the pins, which she believed had a higher speed upon collision. When examining the photos, they both show pins falling and the ball making contact with the pins. The second photo shows the pins almost exploding at the end of the lane and flying through the air. A reasonable prediction could be made that this ball had higher speed upon collision because there was more energy transferred to the pins, and there was a more significant "reaction" when the crash took place.
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Robert is trying to replicate the collision shown in the photograph below. Which ball would create the same change in energy?
Robert is trying to replicate the collision shown in the photograph below. Which ball would create the same change in energy?
If Robert is trying to recreate the same change in energy and have the same explosion of pins, none of these balls will work. Bowling balls are smooth, heavy, and built to create a change in energy when they collide with the pins. The baseball and tennis balls are small and light, so they will not transfer much energy to the pins. The basketball is larger but is also light and textured, so it will not roll as well and will not transfer the same amount of energy. It is more likely to knock pins down, but it will not create the dramatic explosion of pins crashing around the lane when struck.
If Robert is trying to recreate the same change in energy and have the same explosion of pins, none of these balls will work. Bowling balls are smooth, heavy, and built to create a change in energy when they collide with the pins. The baseball and tennis balls are small and light, so they will not transfer much energy to the pins. The basketball is larger but is also light and textured, so it will not roll as well and will not transfer the same amount of energy. It is more likely to knock pins down, but it will not create the dramatic explosion of pins crashing around the lane when struck.
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Glen and his friend London are going sledding at a local park. There are two hills to choose from, "The Bunny Slopes," which are small hills and lots of flat surfaces, and "The Dragon," which is a steep hill and not for beginners. If London goes first and reaches the bottom and Glen crashes into him from behind on "The Dragon," what would happen to the motion of their sleds?
Glen and his friend London are going sledding at a local park. There are two hills to choose from, "The Bunny Slopes," which are small hills and lots of flat surfaces, and "The Dragon," which is a steep hill and not for beginners. If London goes first and reaches the bottom and Glen crashes into him from behind on "The Dragon," what would happen to the motion of their sleds?
If London is waiting at the bottom of the hill and Glen crashes into him there will be a change in the energy transferred when the collision takes place. When Glen hits the back of London his sled will stop or slow down while London's sled will be pushed forward and move. There is a transfer of energy from Glen to London that takes place when any two objects collide.
If London is waiting at the bottom of the hill and Glen crashes into him there will be a change in the energy transferred when the collision takes place. When Glen hits the back of London his sled will stop or slow down while London's sled will be pushed forward and move. There is a transfer of energy from Glen to London that takes place when any two objects collide.
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