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Hiddenite, a rare green beryl, was discovered in Hiddenite, North Carolina. Quartz is a very common mineral found in some areas. These minerals were briefly discussed in the document.
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1) When jumping, a horse's ability depends on the force generated by its back legs and speed. Bigger horses generate more force and are better jumpers than smaller ponies.
2) According to Newton's Second Law, a horse's mass affects the force it can exert for jumping. Jumping form also matters, as riders balance their weight in a two-point position to not impede the horse.
3) Faster gaits like canters provide more force than slower trots, allowing horses to clear higher jumps. The author's experiment found the biggest and fastest horses jumped highest.
Baseball
Baseball is a bat-and-ball game played between two teams of 9 players on a large field with bases. The field is divided into the infield diamond and foul lines that extend from home plate into the outfield. Key parts of the field include the pitcher's mound, bases, and coaches' boxes. The basic rules are that batters are out after 3 strikes, if a fielder tags them with the ball before reaching base, or if a base runner is forced out or tagged while off a base. Fouls and strikes are also important gameplay elements.
Wood Vs Metal
The document compares wood and metal baseball bats. Wood bats are solid, made of natural material, and have a small sweet spot, while metal bats are hollow, man-made, and have a larger sweet spot. An experiment is described that hits balls with both a wood and metal bat to compare the speed and distance of the hits.
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The Full Project
1) When jumping, a horse's ability depends on the force generated by its back legs and speed. Bigger horses generate more force and are better jumpers than smaller ponies.
2) According to Newton's Second Law, a horse's mass affects the force it can exert for jumping. Jumping form also matters, as riders balance their weight in a two-point position to not impede the horse.
3) Faster gaits like canters provide more force than slower trots, allowing horses to clear higher jumps. The author's experiment found the biggest and fastest horses jumped highest.
Baseball
Baseball is a bat-and-ball game played between two teams of 9 players on a large field with bases. The field is divided into the infield diamond and foul lines that extend from home plate into the outfield. Key parts of the field include the pitcher's mound, bases, and coaches' boxes. The basic rules are that batters are out after 3 strikes, if a fielder tags them with the ball before reaching base, or if a base runner is forced out or tagged while off a base. Fouls and strikes are also important gameplay elements.
Wood Vs Metal
The document compares wood and metal baseball bats. Wood bats are solid, made of natural material, and have a small sweet spot, while metal bats are hollow, man-made, and have a larger sweet spot. An experiment is described that hits balls with both a wood and metal bat to compare the speed and distance of the hits.
Brandon
Rocks are composed of minerals that were once living things. Certain rocks like slate and crystals were formed from compressed plant and animal remains over millions of years. Marble is a metamorphic rock that was once limestone composed of microscopic fossils and shells that have been transformed by heat and pressure deep within the earth.
Ana marie
This document provides a brief list of three types of rocks: sapphire, sandstone, and quartz. Sapphire is a gemstone variety of the mineral corundum. Sandstone is a sedimentary rock composed of sand-sized minerals or rock grains. Quartz is a mineral composed of silicon and oxygen atoms in a continuous framework structure.
How Does Rocket Force Work
The document discusses how rocket force works and compares two types of rocket fuel. It examines the third law of motion that for every action there is an equal and opposite reaction. The rocket fuel produces force by burning and the exhaust goes down, pushing the rocket up. A data table shows the effect of different fuels on speed and distance over time based on blows to a water rocket. The conclusion is that rocket force depends on the type of fuel and is related to the third law of motion.
What Makes A Truck Tip Over!!
A truck can tip over if it is too heavy on one side, if it is going too fast when turning, or if the cargo is unbalanced and shifted to only one side of the truck. The document discusses these three main reasons that a truck may tip over - being too heavy on one side, going too fast, or having unbalanced cargo - and suggests that an unbalanced load from having all items shifted to one side is the most likely cause for a truck to fall over when turning.
What Happened To The Tacoma Narrows Bridge
The Tacoma Narrows Bridge in Washington state collapsed on November 7, 1940 after being open for only four months due to high winds that caused the thin bridge to twist and collapse into the water. It took two years to build at a cost of $8 million and was designed to hold 60,000 cars but structural flaws caused it to fail when winds reached 42 mph, earning it the nickname "Galloping Gertie" for the way it would sway in the wind.
Science!
Yes, air causes friction. The document provides examples of how air resistance affects objects in motion like a marble or balls thrown through the air. It describes an experiment where a soccer ball, wiffle ball, and cup are thrown at different strengths over three trials to compare how air resistance impacts how far each object travels. A data table is included showing the distances each object traveled in each trial.
Friction
Friction is the force that occurs when two surfaces rub against each other. Examples of friction include rubbing hands together to create heat, shoes tearing due to walking on concrete surfaces, and using flint and steel to create fires by rubbing them together. An experiment was conducted to test if friction tears up all shoes by rubbing different shoes against sandpaper, with one shoe becoming more torn up than the other due to the effects of friction.
Acceleration
The document discusses acceleration and provides several examples of acceleration in everyday situations. It defines acceleration as a change in an object's speed or direction over time. Some examples given include a car changing speed, a motorcycle braking for a stoplight, a cart moving faster down a hill than up, and a figure skater changing speeds while lifting her leg. The document also describes a student's experiment to measure the acceleration needed to jump 5 inches off ice while varying her speed on the ice.
Velocity &Acceleration
Velocity refers to an object's speed and direction of motion, while acceleration refers to a change in an object's velocity, which can be an increase or decrease in speed. The document discusses how to calculate velocity and acceleration from measurements of distance and time, such as from a baseball hit over 53 feet in 2.84 seconds. A graph and video presented show the speed of a hit baseball over time and distance to demonstrate velocity and acceleration.
Guinea Pig Power Point
The document describes an experiment where a student recorded tug-of-war fights between their two guinea pigs, Thor and Dune, with different amounts of hay. Dune won more fights than Thor, indicating the guinea pigs were using unbalanced forces rather than balanced forces.
Gravity
The document describes several trials of dropping two balls of different masses to observe how gravity affects their motion. The first trial found the time was 16 milliseconds and distance was 40 cm for one ball, while the second trial with a different ball found a time of 26 milliseconds over the same distance. Diagrams and a video were included to illustrate the experiment. The document concludes that gravity impacts everything and was the focus of the reported project.
The Physics Of Horse Jumping
1) When jumping, a horse's ability depends on the force generated by its back legs which is impacted by speed - the faster the horse is moving, the higher it can jump.
2) Bigger horses generate more force from their back legs and are generally better jumpers than smaller ponies.
3) To balance the horse and rider over a jump, riders stand up in a "two-point" position to shift their weight forward.
My Summary
The document discusses the concept of force. It provides three examples of how force affects motion or interactions. In the first example, the author hits a ball with varying levels of force and measures how far the ball travels, finding that greater force leads to greater distance. The second example notes that using small force won't make someone leave a room but greater force would. The third example is that a professional wrestler would need to use great force to knock someone down, but small force wouldn't achieve that.
Friction
Friction is the rubbing together of two surfaces. It causes shoes and tires to wear down over time from rubbing against surfaces like concrete. The experimenter tested how friction tears shoes by rubbing different shoes against sandpaper, with one shoe tearing more than the other. All shoes will eventually tear from friction, but the material on the bottom affects the rate of tearing.
Friction
Friction is a force that reduces movement between surfaces due to imperfections even on seemingly smooth surfaces. The document describes an experiment to test how grass length affects the rolling of a baseball, with results showing it rolled farther on short grass than medium or long grass due to increased friction on longer grass slowing it down more quickly.
Gravity Man
David conducted gravity trials to compare how objects with different masses are affected by gravity. He dropped a soccer ball, baseball, and rubber ball from a height of 100cm and timed how long it took each to fall. The soccer ball took 1.36 seconds, the baseball 0.55 seconds, and the rubber ball 1.03 seconds. David concluded that the bigger the mass of an object, the more gravity affects it, as the baseball with the smallest mass fell the fastest.
Friction
Friction exists between two objects in contact with each other. The document presents data from trials measuring the friction between rough and smooth wood surfaces. There is less friction in smoother surfaces because they have fewer bumps that cause resistance than rougher surfaces, making it easier for objects to move across smooth rather than rough materials.
Gravity Man
The document describes three trials of dropping objects of different masses from a height of 100cm to measure how gravity affects them. In trial 1, a soccer ball fell in 1.36 seconds. In trial 2, a baseball fell faster at 0.55 seconds. In trial 3, a rubber ball was timed at 1.03 seconds. The conclusion is that the bigger the mass, the more gravity affects it, pulling heavier objects down faster than lighter ones from the same height.
Gravity Man
The document discusses acceleration and provides several examples of acceleration in everyday situations:
1) Acceleration is a change in an object's speed or direction of motion. It occurs when an object's velocity changes due to an applied force.
2) Examples of acceleration include a car changing speed, a bike going up a hill and slowing down, and a horse transitioning from a trot to a canter.
3) Acceleration can also be seen when a motorcycle encounters a stoplight and must slow down, a cart speeds up as it goes down a hill, or a figure skater changes speeds while lifting her leg.
Gravity Man
The document describes several trials of dropping two balls of different masses to observe how gravity affects their motion. The first trial found that the ball with higher mass fell faster, reaching the ground in 16 milliseconds from 2 meters, while the lighter ball took 26 milliseconds. Diagrams and a video were included to illustrate the experiment. The conclusion is that gravity impacts everything we do.
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Brandon
Rocks are composed of minerals that were once living things. Certain rocks like slate and crystals were formed from compressed plant and animal remains over millions of years. Marble is a metamorphic rock that was once limestone composed of microscopic fossils and shells that have been transformed by heat and pressure deep within the earth.
Ana marie
This document provides a brief list of three types of rocks: sapphire, sandstone, and quartz. Sapphire is a gemstone variety of the mineral corundum. Sandstone is a sedimentary rock composed of sand-sized minerals or rock grains. Quartz is a mineral composed of silicon and oxygen atoms in a continuous framework structure.
How Does Rocket Force Work
The document discusses how rocket force works and compares two types of rocket fuel. It examines the third law of motion that for every action there is an equal and opposite reaction. The rocket fuel produces force by burning and the exhaust goes down, pushing the rocket up. A data table shows the effect of different fuels on speed and distance over time based on blows to a water rocket. The conclusion is that rocket force depends on the type of fuel and is related to the third law of motion.
What Makes A Truck Tip Over!!
A truck can tip over if it is too heavy on one side, if it is going too fast when turning, or if the cargo is unbalanced and shifted to only one side of the truck. The document discusses these three main reasons that a truck may tip over - being too heavy on one side, going too fast, or having unbalanced cargo - and suggests that an unbalanced load from having all items shifted to one side is the most likely cause for a truck to fall over when turning.
What Happened To The Tacoma Narrows Bridge
The Tacoma Narrows Bridge in Washington state collapsed on November 7, 1940 after being open for only four months due to high winds that caused the thin bridge to twist and collapse into the water. It took two years to build at a cost of $8 million and was designed to hold 60,000 cars but structural flaws caused it to fail when winds reached 42 mph, earning it the nickname "Galloping Gertie" for the way it would sway in the wind.
Science!
Yes, air causes friction. The document provides examples of how air resistance affects objects in motion like a marble or balls thrown through the air. It describes an experiment where a soccer ball, wiffle ball, and cup are thrown at different strengths over three trials to compare how air resistance impacts how far each object travels. A data table is included showing the distances each object traveled in each trial.
Friction
Friction is the force that occurs when two surfaces rub against each other. Examples of friction include rubbing hands together to create heat, shoes tearing due to walking on concrete surfaces, and using flint and steel to create fires by rubbing them together. An experiment was conducted to test if friction tears up all shoes by rubbing different shoes against sandpaper, with one shoe becoming more torn up than the other due to the effects of friction.
Acceleration
The document discusses acceleration and provides several examples of acceleration in everyday situations. It defines acceleration as a change in an object's speed or direction over time. Some examples given include a car changing speed, a motorcycle braking for a stoplight, a cart moving faster down a hill than up, and a figure skater changing speeds while lifting her leg. The document also describes a student's experiment to measure the acceleration needed to jump 5 inches off ice while varying her speed on the ice.
Velocity &Acceleration
Velocity refers to an object's speed and direction of motion, while acceleration refers to a change in an object's velocity, which can be an increase or decrease in speed. The document discusses how to calculate velocity and acceleration from measurements of distance and time, such as from a baseball hit over 53 feet in 2.84 seconds. A graph and video presented show the speed of a hit baseball over time and distance to demonstrate velocity and acceleration.
Guinea Pig Power Point
The document describes an experiment where a student recorded tug-of-war fights between their two guinea pigs, Thor and Dune, with different amounts of hay. Dune won more fights than Thor, indicating the guinea pigs were using unbalanced forces rather than balanced forces.
Gravity
The document describes several trials of dropping two balls of different masses to observe how gravity affects their motion. The first trial found the time was 16 milliseconds and distance was 40 cm for one ball, while the second trial with a different ball found a time of 26 milliseconds over the same distance. Diagrams and a video were included to illustrate the experiment. The document concludes that gravity impacts everything and was the focus of the reported project.
The Physics Of Horse Jumping
1) When jumping, a horse's ability depends on the force generated by its back legs which is impacted by speed - the faster the horse is moving, the higher it can jump.
2) Bigger horses generate more force from their back legs and are generally better jumpers than smaller ponies.
3) To balance the horse and rider over a jump, riders stand up in a "two-point" position to shift their weight forward.
My Summary
The document discusses the concept of force. It provides three examples of how force affects motion or interactions. In the first example, the author hits a ball with varying levels of force and measures how far the ball travels, finding that greater force leads to greater distance. The second example notes that using small force won't make someone leave a room but greater force would. The third example is that a professional wrestler would need to use great force to knock someone down, but small force wouldn't achieve that.
Friction
Friction is the rubbing together of two surfaces. It causes shoes and tires to wear down over time from rubbing against surfaces like concrete. The experimenter tested how friction tears shoes by rubbing different shoes against sandpaper, with one shoe tearing more than the other. All shoes will eventually tear from friction, but the material on the bottom affects the rate of tearing.
Friction
Friction is a force that reduces movement between surfaces due to imperfections even on seemingly smooth surfaces. The document describes an experiment to test how grass length affects the rolling of a baseball, with results showing it rolled farther on short grass than medium or long grass due to increased friction on longer grass slowing it down more quickly.
Gravity Man
David conducted gravity trials to compare how objects with different masses are affected by gravity. He dropped a soccer ball, baseball, and rubber ball from a height of 100cm and timed how long it took each to fall. The soccer ball took 1.36 seconds, the baseball 0.55 seconds, and the rubber ball 1.03 seconds. David concluded that the bigger the mass of an object, the more gravity affects it, as the baseball with the smallest mass fell the fastest.
Friction
Friction exists between two objects in contact with each other. The document presents data from trials measuring the friction between rough and smooth wood surfaces. There is less friction in smoother surfaces because they have fewer bumps that cause resistance than rougher surfaces, making it easier for objects to move across smooth rather than rough materials.
Gravity Man
The document describes three trials of dropping objects of different masses from a height of 100cm to measure how gravity affects them. In trial 1, a soccer ball fell in 1.36 seconds. In trial 2, a baseball fell faster at 0.55 seconds. In trial 3, a rubber ball was timed at 1.03 seconds. The conclusion is that the bigger the mass, the more gravity affects it, pulling heavier objects down faster than lighter ones from the same height.
Gravity Man
The document discusses acceleration and provides several examples of acceleration in everyday situations:
1) Acceleration is a change in an object's speed or direction of motion. It occurs when an object's velocity changes due to an applied force.
2) Examples of acceleration include a car changing speed, a bike going up a hill and slowing down, and a horse transitioning from a trot to a canter.
3) Acceleration can also be seen when a motorcycle encounters a stoplight and must slow down, a cart speeds up as it goes down a hill, or a figure skater changes speeds while lifting her leg.
Gravity Man
The document describes several trials of dropping two balls of different masses to observe how gravity affects their motion. The first trial found that the ball with higher mass fell faster, reaching the ground in 16 milliseconds from 2 meters, while the lighter ball took 26 milliseconds. Diagrams and a video were included to illustrate the experiment. The conclusion is that gravity impacts everything we do.
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See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Removing Uninteresting Bytes in Software Fuzzing
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
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