LEARNING ABOUT FTALATES

1.- What are ftalates?

Phthalates are additives used in everyday plastic products to increase their flexibility, durability and transparency. Phthalates pollutes environment and also our body.

2.- Where can we find them?

Phthalates are found in products to which we have a high exposure, such as babies' toys, beverage containers, cosmetics, and even food wraps.

3.- Are they dangerous? Why?

Phthaletes are horrible because they're so easly taken into our bodies. They can be absorbed by skin contact, ingested, and inhaled. They have been shown to cause cancer and birth defects by acting a hormone disruptor. 

4.- What are the two young scientists trying to do?

They are trying to do a project. The first step in their project was to collect soil samples from three different sites along the Fraser River. Out of thousands of bacteria, they wanted to find ones that could break down phthalates. So they enriched their cultures with phthalates as the only carbon source, this implied, if anything grey in their cultures, then they must be able to live off of phthalates. In conclusion they were trying to find a new bacteria that could be able to biodegradate the plastic, certainly, breaking the phthalates. Miranda Wang and Jeanny Yao, the scientists, identified a new bacteria that breaks down nasty compunds called phtalates, common to flexible plastics and linked to heath problems.

5.- Give your opinion about their work and their achievements.

I think they are doing a very good job, it's a very good idea because a lot of people is worried about the environmental pollution in the world but not a lot of people try to avoid them. These girls seem to be very very intelligent and I think no one more in the world tried to do what they are trying to do. I am sure they were working very hard because if not, it's a very difficult thing to find. 

6.- What is an accident? Is always a bad thing? Give some examples of positive results from accidents.

We usually consider accidents to be harmful, unfortunate or even dangerous, and they certainly can be, but they are not always bad things. Some accidents have led to discoveries. For example without biologist Alexander Fleming's moldy accident caused by a neglected workstation we wouldn't be able to fight off so many bacterial infections.

WHAT DO I KNOW ABOUT SIMPLE MACHINES? (summary)

SIMPLE MACHINES make work easier for us by allowing us to push or pull over increased distances.

In general, they can be defined as the simplest mechanisms that use mechanical advantage (also called leverage) to multiply force. Usually the term refers to the six classical simple machines which were defined by Renaissance scientists:

1. LEVER:

A rigid bar that pivots about one point and that is used to move an object at a second point by a force applied at a third. Here we have a clear example:

2. INCLINED PLANE:

An inclined plane is a ramp assists moving object up and down heights. It is a plane surface, set at an angle against a horizontal surface.

3. WEDGE:

The wedge is the active twin of the inclined plane. But unlike the inclined plane, which is stationary, a wedge does useful work by moving.

4. PULLEY:

Sometimes is not easy to lift heavy objects with only one human force. A basic pulley comprises of a wheel on a fixed axle, with a groove along the edges to guide a rope.

5. WHEEL AND AXLE:

When we have to move a really heavy object, we have to use a great deal of force push it. That's because of:
Friction: force resisting the motion of the object on the ground.
Gravitational force: force that pulls the object to the ground.
The wheel and the axle solves this problem!!!
In this simple machine, a wheel is locked to a central axle and they rotate each other when a force is applied on either one of them.

6. SCREW:

A screw is one of the most commonly used machines in the world. It is a machine that converts rotational motion into linear motion.

Could we live without machines? No. Something as simple as a cart requires wheels to move. Think about how our clothes are cleaned, what do we use to cook food, and how do we get to school on rainy days. It would be very hard to live without machines.

CAMS AND ECCENTRICS are mechanisms that convert rotational motion into reciprocating linear motion. They consist of a revolving piece, the cam or eccentric to give it is proper name, and an element that this piece comes into contact with; the follower or lever. Eccentrics are circular in shape, with the special characteristic that the turning axis is not in the centre. Cams can have any profiles depending on the type of movement that you want the lever to have. In the animations below you can see how they work.

GEARS: Gear trains transmit rotary motion. Gears are toothed wheels that interlock. A gear train is where two or more gears are linked together.

 The driver, turned by hand or a motor, turns the driven gear. Both will automatically turn in different directions. If the driver turns clockwise, the driven will turn anticlockwise and vice versa.

If you use a third gear, it is named idler, the driver and the driven will both turn in the same direction, and the idler in the other directoin. Example: in the photo.






As you can see in the image, the gears are different in size, and this means that they turn in different speeds. In the photo the driver (that is the big gear) makes 1 turn while the driven (the small gear) turns 2 times

Gears can change the type of motion or the direction of motion:
For example you can change from the rotary motion to linear motion.
A rack and pinion are used to turn rotary motion to linear motion. The pinion, a round gear, is turned to move a flat gear, the rack.

A worm drive and worm wheel change the direction of rotation through 90º. The worm drive (the driver) only has one tooth and will turn much faster than the worm wheel, which has many teeth so will turn very slowly.
Bevel gears algo change the direction of rotation through 90º. The teeth are angled at 45º so the gears fit together at right angles.

MECHANICAL SYSTEMS:

Electrical systems aren't the only type of system. There are also mechanical systems. All mechanical systems have mechanisms which transform an input motion into an output motion.

They're designed so you can gain an advantage from using them- they making something easier to do.

Some mechanisms change one type of motion into another.

Linear motion

reciprocating motion

oscillating motion

rotary motion

I have done a mind map with a very good programme, is very easy to use and you can put whatever you want, photos, different colours in the title, etc. Is the first time I have used this programme but I like it a lot!!!! If you want to see my mapmind, click here!!!

MYSELF

Hellooooo, my name is Aina Monroig, I live in a village of Mallorca with my family and I am studying in a high school near to my village. I really like discover new things and investigate all this I am interested about. I also like a lot staying with my friends and with my family. I don't understand nothing of football and I think is for this I hate it. I started this blog because my technology teacher has proposed us to put and explain here our technology tasks and presentations.
By now I have done a presentation about inventions I like. I've done it using powtoon presentations that is a very good programme to work if you want to do presentations or things like this. Is not difficult to use but first yo need to experiment it to know what things are you able to use or not. My presentation is not the best but because is the first I've done using this programme. If you want to see my powtoon presentation, click here: