Egg Drop Lab Jose,Thomas,Enrique

A tendency to do nothing or to remain unchanged is the definition of inertia. Mass is related to Inertia ,because Mass is that quantity that is solely dependent upon the inertia of an object. We used an unbalanced force to move the pie tin. The friction in the water slows down the egg. It connects to Newtons First law because the egg was not in motion and we used a force to put it into motion. 

Egg Drop Analasys

Blair, Meg, Isela

We started this experiment with filling a container up with water, and placing a pie tin and toilet paper roll on top of that. Next we placed an egg on top of the toilet paper roll. Our objective was to get the egg into the container without it hitting anything else. We came to the conclusion that in order for this to work, we would have to hit the pie tin hard and quickly. The friction between the pie tin and the container was very little, so the tin moved easily. The gravitational pull on the egg will bring it into the water, but will hang in the air for about a nano second. Our group knows that the egg will not move until we hit it; because Newton's First Law of Inertia states that an object at rest will stay at rest, until acted upon by an outside force. The egg's mass was greater than all the pie tin and toilet paper roll, so they will be hit out of the way of the egg. So, we applied an unbalanced force to the pie tin, causing the egg to go into the water.

Egg Drop Analysis w/ Jenna

We put the the egg on the tin, with the paper towel rolls. We used momentum to hit the egg out of the paper towel roll. When we did the egg stay in the air due to the lazy rule for about a millisecond. Then the egg dropped into the water breaking the fall of the egg. Inertia is the resistance to the change in motion. It's related to mass because when something is lighter then it will have less resistance. Friction came into play when we hit the tin, the resistance of the air held the egg in the air for a millisecond.  The egg relates to Newton's First Law because the egg was hit and it moved in a straight line right down doing the same speed.

Lets get eggy

In our lab we experienced Newtons first law at work. To start we had to get a big cup about 3/4 full of water. We put a pie thing on it and a toilet paper thing with and an egg laying horizontal on the top.  When we attempting the lab we saw that when you hit the pan the egg sits in the air for 0.001 then it drops in the air. Also we saw that when hit the pan there was gravity pushing on it. The toilet paper had great inherit and it made the egg fall in the water. Another dub for Parker and Tommy

Egg Drop Analysis (Mackenzie & Kelsey)

For this experiment, we had a container of water (filled about 3/4 the way full), a pie tin on top of that, an empty toilet paper roll on top of that, and a heavy egg laying horizontally on top of that. Our task was to get the egg in the water. We brought a force to the pie tin to push it off of the top of the container, knocking the toilet paper roll over and letting the egg roll off into the water. Isaac Newton's 1st Law of Inertia states something along the lines of, "An object in motion stays in motion and an object at rest tends to stay at rest unless an unbalanced outside force acts upon it." Here in this project, we brought a force to an object at rest (the pie tin), which caused the egg and the toilet paper roll to move. If we hit the pie tin with enough force, it will slide off and knock the roll over, sending the egg into the water. When the egg hit the water, the water caught it and became the outside force to stop it from moving.

Egg Drop Analysis

Our expirement for Mr. Morrow was to drop an egg in a container filled with water. All of the stuff we did in this expirement applies to Newton's first law of Motion. First when the egg was sitting on top that was inertia because it would have stayed there unless there was an outside force applied to it. My hand hitting the pie tin was the force applied to that. As the egg was falling that was acceleration from going from zero speed to a falling speed. As the egg hit the water as a coushin it stayed there for a small time then gravity forced it to the bottom of the container.

Egg Drop Analysis

To start out with, we can all of the materials. We then put them together. It goes the water container, the pie tin, paper towel roll, and then the egg. Then as we hit the pie tin, the paper towel roll was pushed becuase of a force moving the egg into the air. The pie tin didn't have that much friction allowing the egg and the paper towel roll to move. The egg then stayed in the air for less then a second which was inertia, and then the gravity went to work.  Inertia is which caused the egg to stay The gravity then pushed it down into the container and was then stopped by the water witch acts as a pillow for the egg. thi.s was the experiement that we did today in class

Egg Drop Lab

When we solved the Egg Drop Challenge, we noticed that many things changed from ours. Since everyone else's seamed the same, I decided to make mine 3 cups high, and it worked. I also tired the first time only two cups because I wanted to see if it works. Sorry I forgot to say how we all did it the same. We all had a beaker, and toilet paper role(with no paper), and a pie. Mine was the only one that did it like that.

The Egg Drop Lab

                                     

What happened was the egg was still in inertia. Then we used static friction to move the egg into the water which caused to have acceleration that made the egg flip and moved down ward because gravity pulled down to the water which cause the egg to go down and not go different  directions. Also this prevented the egg from cracking instead of hitting the table instead of the water. Once the egg hit the water it had friction because the egg stopped when it hit the water. When using force with our hand once it hit the tin pan it gave the egg a direct way to hitting the water. In conclusion there was force , static friction , acceleration , gravity were used in the process of the lab. Also using all these in the project help guide the egg into the water without cracking the egg and putting it in a certain direction.

egg drop test

Egg Drop lab 

Reece and Froi 

After we had our lab set up our goal was to drop the egg in the water. The egg has more mass which means the egg has a higher inertia. Inertia means the resistance to change in motion. The pie tin and the paper roll have less mass then the egg. When we hit the pie tin out from underneath the egg, the egg dropped into the water.  The pie tin and paper roll flew out of the way when we added force. That caused the egg to fall into the water. The egg didn’t move at first like the other things because of the inertia but the gravity pulled the egg down. The gravity was the outside force that caused the egg to drop.

"Egg Drop Analysis"

The egg wanted to stay in place because it was resting on the paper towel roll, but when we hit the pie tin the egg wanted to stay in place. So once we hit the pie tin the paper towel roll moved out of the way and the egg fell the water because of gravity. The egg had the resistance to move, because of Inertia. It had the most mass out of the paper towel roll, and the pie tin. When we hit the pie tin the bottom slid across the top of the water and it hit the bottom of the paper towel roll and so the result the egg moved out of the way so gravity pulled it down into the water. It was really to Newtons 1st Law because we applied a force to the pie tin and that created friction ,then gravity pulled the egg down.

Egg Drop Inertia I Guess 💦💦😂😂😂

We started out with the egg on top of the structure. Then Ethan hit the pan and the egg fell into the water in the container. The og egg fell into the water because it has more inertia than the other things. once he hit the pan it accelerated and made the toilet paper towel thing accelerate too. they accelerated because of the force he used.

Egg drop Analysis

Ayamie, Alyssa, Kenna

Egg drop Analysis 

     We got some water into a container with a foil/pan and then a toilet paper roll and an egg on top, and then we were supposed to flip it. The egg will probably sit in the air for a second, because of Newton’s lazy law. Inertia- Resistance to change in motion. More mass= more inertia. The egg has to do with inertia.

     We thought that if you don’t hit it right it won’t work. You have to hit it straight not up. Putting two toilet paper rolls and then an egg on top works also. It stays in the air a little longer. just a little bit. The egg barely made it in the water. 

      Two toilet paper rolls side by side and an egg on the top of each on works two. Four rolls of toilet paper side by side and an egg on each one kind of works. it was close. We tried it a second time and it still didn’t work. We found at the end that hitting the pan downwards, works two. 

The egg had more mass which means it had more inertia which made it stay there. Gravity is what made it fall into the water. 

Egg Inertia thing

The egg was on the top of the toilet paper roll and under that was a tin pie thing and water. When we hit the pie tin pan the egg stayed in the air for a bit. It fell in the water without breaking into the water. The water broke the fall of egg so it wouldn't break. When you hit the pan it flew to the side making the toilet paper roll go along with it. The egg was so dense that as soon as the pan flew that the egg drop into the water. Gravity was the thing that pulled down the egg into the water.

Egg Drop Analysis W/ AJ

We put the pie tin on the top of the bucket of water and put the toilet paper roll on top of the pie tin and then we put the egg on top of toilet paper roll. Then what we did is it the pie tin making the toilet paper roll to move under the egg flying out of the way making the egg land in the water. This happened because of the law of inertia or the lazy law. An object at rest stays at rest and an object in motion stays in motion with the same speed and in the same direction unless acted upon by an unbalanced force is Newtons law of motion or lazy law. Inertia is the resistance of acceleration and motion. This is related to mass because since the egg does not weigh that much it did not move from its original spot and went into the water underneath it. We used a force to accelerate the pie tin and the result of this is the pie tin and the toilet paper roll went flying from under the egg and the egg did not move an inch and went into the water. Friction comes into play with this because if there was no friction then the pie tin would keep going the way it got knocked and it would keep going that direction. The egg pertains to newtons 1st law of motion an object at rest tends to stay at rest unless pushed by an unbalanced force because when I hit the pie tin the egg did not move at all so if i did not hit it with an unbalanced force it would stay at rest in the same spot until gravity took it down.

Egg Drop Analysis

Lilly and Jaydan

Egg Drop Analysis

When we hit the pie tin out from under the egg, the egg fell into the water. The pie tin flew out of the way and hit the end of the toilet paper roll and flipped the egg into the water. The egg had the most mass so it also had the most inertia. It didn’t move with the other things because of the inertia but the gravity pulled it down. The inertia made it sit still until the gravity pulled it down into the water.