Pressure

We recently got a sprinkler system for our house, so I was wondering how it works. Of course, I thought, there must be physics involved. So then came the idea for my blog: to find out how our sprinkler system works. After a whole year of physics, I was able to deduce that the water is pumped to the sprinklers under pressure, and I was right. Sprinkler systems uses jet pumps to get the water from a source to the sprinkler heads. The pump pushes the water up from the ground through the underground pipes. Sounds a lot like what we learned in physics about pressure. Pressure is equal to force over area, and since the area of a sprinkler system doesn’t change, the force has to be increased to increase the pressure and get water flowing. I’m glad that pressure is able to water our yard but now I’m thinking that we need it to tell us when it will rain so that our sprinkler system doesn’t go off when it is raining. Speaking of pressure, I think we need a barometer! Barometers measure atmospheric pressure, the pressure created by the weight in the atmosphere. Therefore, a barometer could probably tell us when it will rain because there will be more pressure in the atmosphere.

Driving

I have been learning to drive on the road and noticed some things that are physics related. For example, when you keep your foot on the gas pedal, the car keeps accelerating. The harder you push on it, or the more force you apply to it, the faster it goes. In addition, there are three mirrors that you use: the rear-view mirror and the side-view mirrors. Each of them use reflection to help the driver be more aware of what’s behind them, but they are different types of mirrors. The rear-view mirror is a plane mirror while the side-view mirrors are convex mirrors to help the driver have a wider field of vision. The picture to the left is a picture I took while I was on a road trip. You can see the plane mirror in it. Last but not least, there is a bit of uniform circular motion when you drive because when you turn the car, you want to keep it at the same speed so that you can predict where the car will go. That’s pretty much it for the physics that I’ve realized so far while driving.