Diffuse Reflection

Introduction to diffuse reflection:

The light rays travels in the straight line. The ray of light travels with the velocity of 3 × 108 metre per second. If the ray of light travels from one medium to another medium it suffers refraction due to the change in the velocity of light in different mediums. If the ray of light falls on the smooth and polished surface it suffers reflection. Here we discuss about reflection.I like to share this Fundamentals of Fluid Mechanics with you all through my article.


Diffused reflection:


The bouncing back of the light rays after striking from the highly polished and the smooth surfaces is called reflection. The image formed on retina so the we can see the objects is the very important example of reflection. As the rays of light falls on any object, the rays are reflected from the object and then enter in our eye. Now from the refraction of the eye lens the image of the object is formed on the retina. After that, the optical nerves carry the optical signals to the mind as the mind gives the permission to see the object we can see the image of the object very clearly. The reflection are of two types: one is called the specular or regular reflection and the other is diffused or irregular reflection. In the case of regular reflection, it obeys the laws of reflection completely but in case of the diffused reflection, it does not obey the laws of reflection completely. The diffused reflections are done by the non-polished or the slightly polished and non smooth or rough surfaces. As the rays of light falls on a rough and non-polished surface at any angle of incidence then the angle of reflection is not equal to the angle of incidence. Here the rays of light do not follow the first law of reflection. Similarly, the normal to the reflecting surface, incident ray and the reflected ray are not lie in the same plane, so the rays of light do not follow the second law of reflection.


Examples of the diffused reflection measurement:


The examples of the diffused reflection are the reading of newspaper or reading of a notebook. As we read the newspaper the images of the letters can be produce on the retina. Similarly, the ray of light from our body is reflected but the reflection is diffused so that we cannot see our image on the newspaper.

Rotating Magnetic Field

Introduction to Rotating Magnetic Field:

A rotating magnetic field is a kind of magnetic field which ideally changes its direction at an angular rate which is constant. In the working of a motor that works on alternating current, the rotating magnetic field plays a key role as it is associated with its principle of operation. The concept of rotating magnetic field was introduced by Nikola Tesla in 1882. Galileo Ferrari's has done his research independently to introduce some more features of this concept in 1885.



Production of Rotating Magnetic Field


A rotating magnetic field which is symmetric can be produced using as few as three coils. To produce a rotating magnetic field, three coils should be driven by a symmetric three phase a.c. current and one of the phases is shifted to 120 degrees as compared to the other phase. In this case the magnetic filed should be taken as the linear function of the current which is flowing in the coil. The three phases which are 120 degrees out of phase compare to each other when applied to the axis of the alternating current motor then it produces a single rotating vector. This rotating vector follows the magnetic field in the coil and hence produces a rotating magnetic field .



Application of Rotating Magnetic Field


Rotating magnetic fields can also be used in the induction motors because the magnets, which are used, degrades with time and the induction motor use the short circuited rotor instead of a magnet, which is easily follow the rotating magnetic field produced by a stator, which is multi coiled. In the case of the induction motor, the turns of the rotor which is short circuited, develops the eddy current in the rotating magnetic field of the stator which is used to move the rotor by the developed Lorentz force. Such motors are generally not synchronous but they have involved a necessary degree of the slip by which the current will be produced due to the relative motion of the field and the rotor.

4 Simple Machines

Introduction to Simple Machines:

A simple machine is nothing but a kind of mechanical device which is used to change either the direction of the applied force or the magnitude of the given force. Generally the simple machines are defined in the simple way as the simplest mechanisms which are used to get the mechanical advantage, which is also called the leverage of the applied force in the specific and simpler manner. A simple machine uses the applied force for the work which is being done by the simple machine and the work is done against the single load force. If one ignores the losses that occur due to the friction then the work done by the applied force is equal to the work done on the given load. The simple machines can be used in order to increase the amount of the output force which is done at the cost of the decrease in the distance covered or moved by the load and this decrease is proportional to the increase in the output force.



Types of Simple Machines:


Usually there are six classical simple machines which are given below:

Lever

Wheel and axle

Pulley

Inclined plane

Wedge

Screw


4 Simple Machines


Pulley: The pulley is a simple machine used for the easy holding of the heavy weights. A pulley consists of the grooved wheels and the rope which is used to raise or lower or move any load.

Lever: A lever is nothing but a piece of the wood or the stiff bar of wood which is at rest on a support and the support is called the fulcrum and hence on that support it is used to lift or move the loads.

Wedge: A wedge is the object which has at least one side which is slanting and the same is ending in a sharp edge and this sharp edge is used to cut the materials apart.

Wheel & Axle: A wheel which is there with a rod which is called the axle and the compound system made the simple machine wheel and axle and in this simple machine the load is lifted or moved through the center of the machine.

Different Types of Energy

Introduction to different types of energy:

It is often said that a person A is more energetic than a person B. The meaning of this statement is that a person A can do more work than the person B. Person A is said to have more energy. Energy is needed to do some work. After doing a lot of work, one feels tired and need more energy. Thus, anything which is capable of doing work has energy. The capacity of doing work by a body or an object is known as the energy of  the body or the object.I like to share this Rotational Kinetic Energy Formula with you all through my article.

Energy is defined as the ability or the capacity to do work.

Units of Energy:

Energy can be measured in Joules. Joule is named after an English physicist named James Prescott Joule who lived from 1818 to 1889. He discovered that heat is a type of energy. One joule is the amount of energy needed to lift 1 pound about 9 inches.


Types of Energy:


Kinetic Energy- The energy possessed by a body by virtue of its motion is known as kinetic energy. For example a moving bus, Moving bullets, flowing water etc.

Potential Energy-  The energy possessed by a body by virtue of its position or shape, is known as Potential energy. For example water stored in a dam , a stone lying on the top of hill, a wound spring of a watch, a stretched bow and arrow  etc.

Mechanical Energy- The sum of kinetic energy and potential energy of a body is known as mechanical energy.



Types of Energy:


Heat or Thermal Energy- The energy possessed by a body due to its temperature is known as heat energy. For example energy of hot water, energy of hot air etc.

Chemical Energy- The energy released in chemical reactions is known as chemical energy.
Sound Energy- The energy of a vibrating object producing sound is known as Sound energy.
Electrical Energy- The energy of moving electrons in a conductor connected with a battery is known as electrical energy.
Nuclear Energy- The energy released when two nuclei of light elements combine with each other to form a heavy nucleus or when a heavy nucleus breaks into two light nuclei is known as nuclear energy.

Solar Energy- The energy radiated by the sun is known as Solar energy

White Light Spectrum

Introduction to white light spectrum:

White light spectrum is the visible light waves and they are electromagnetic waves that can be seen.  The white light is not white. It consists  of different colors of different wave length.  White light is a mixture of  of Red, Orange, Yellow, Green, Blue, Indigo, and Violet.   These form a part of the electromagnetic spectrum.  Electromagnetic spectrum is a bunch of radiations and visible light is a part of this spectrum.   These Electromagnetic radiations are  radio waves, Microwaves,  infrared, visible light rays, Ultraviolet, x-rays and gamma rays.


Description about White light spectrum


The EM (Electromagnetic spectrum) is a bunch of radiations.  Radiation is an energy that travels and spreads. It can be visible white light of radio waves.

Newton gave his findings that when white light is passed through a transparent medium like glass this created a spread of colored light rays from r  Red, Orange, Yellow, Green, Blue, Indigo, and Violet.  These are the colors  of the rainbow. This ordered separated of colored light is known as the spectrum. The white light spectrum also consists of UV light but that cannot be seen. When white light passes  through a prism, the white light is split  into the colors of the visible light spectrum. Water vapor in the atmosphere can also split the white light of different wave lengths  creating a rainbow.   Red color has longer wave length and violet has the shortest wave length.  There lies continuous range  of spectrum of wavelengths between red and violet.



White light spectrum passing through prism


The white light spectrum is the section of electromagnetic radiation spectrum that is visible to be human eye.  It ranges in wavelength from approximately 400 Newton meter (4 x 10-7 m) to 700 Newton meter  (7 x 10-7 m). It is also known as the optical spectrum of light.

When white light is passed through a prism it causes the wavelengths to bend at slightly different angles. That is due to refraction. This bending of light results in splitting of white light into visible colors. This cause the rainbow. The airborne  particles acts as the refractive medium which causes the splitting of white light into different angles.

Static Electricity Materials

Static Electricity

Static electricity is the accumulation of excess charge on the surface of an insulator, that is, a material that does not conduct electricity.

Why does the charge accumulate?

An atom is made of a positively charged nucleus (made of protons and neutrons) surrounded by several shells of electrons which are negatively charged. Objects that we see everyday are made of electrically neutral atoms or molecules. This means that the number of positive charges and negative charges are equal. However, when two electrically neutral materials are in contact, the electrons may move from one material to another. This means that one material gets an excess of negative charge, while the other one gets an excess of positive charge. If you separate the materials after the electrons have moved, there will be a charge imbalance in the materials.

In a conducting material, the charges are immediately conducted away, and the charge does not accumulate. So, the phenomenon of static charge accumulation or static electricity can be seen only in insulators or non-conductors.


Experiments of static electricity materials:


You can see how static charges accumulate by doing these simple experiments.

Experiment 1:

Rub a balloon vigorously on a sweater.  The rubbing motion increases the area of contact between the two surfaces, making it easier for charges to migrate. The balloon gets negatively charged and the jumper aquires a positive charge. Now, if you bring the balloon close to your hair, your hair will cling to the balloon. This is known as static cling.

Experiment 2:

Use a plastic comb to comb through your hair about ten times. Now, turn on a tap so that you have a steady water flow. The flow should not be very fast. If you bring the comb near the stream of water without touching it, the water will bend towards the comb. This is because the charges on the comb pull on the uncharged water.

Removing static electricity:

Static electricity can be removed by bringing the material into contact with a conductor, or with a region that has an excess charge that is opposite to the material. This causes the charge to neutralize, resulting in a static 'shock.' In regions of high humidity, the air itself will conduct away the static charges.

Moon Distance From Earth

Introduction to moon distance from earth:

To begin with moon's distance from earth, let us know that Moon is a natural satellite of our earth. In our solar system, there are nine planets and out of which seven planets have their moons. Moons are also the part of the solar system. Actually, the name moon means the artificial satellite. That is the name of the family not the name of a particular natural satellite. Because earth has only one natural satellite, so that we can say it moon, but the planets has so many artificial natural satellites so there is the particulars name given to all the moons. Here we discuss about the distance of the moon from our earth.


Moon's distance from earth:


A solid heavenly body that revolves around a planet is called its natural satellite or the moon. Moon is the natural satellite of the earth, which revolves around the earth. Natural satellites, i.e., moons do not have their own light. They reflect the sun light falling on them and appear shining. The size of the moon of the earth is one fourth of the size of the earth. The diameter of the moon is 3480 Km. The mass of the moon is one eighth of the mass of the earth, i.e., 7.35 × 1022 kg.  The distance of the moon from the earth’s surface is 3.8 × 105 km. The surface of the moon is hard and loose soil, craters, mountainous. There is no atmosphere on the moon. The temperature of the moon at the daytime is 110°C and at the nighttime is -150°C.

Conclusion of moon distance from the earth:


Moon completes one revolution around the earth in 27.3 days. As the temperature is too high and too low on the moon, the survival of life is not possible. The conditions of the survival of life are moderate temperature, existence of water, oxygen rich atmosphere and the presence of hydrogen, carbon, nitrogen elements and the main important thing is protective layer, which can protect the moon groom the ultra violet radiations of the sun. All these conditions are not full fill on the surface of the moon so the life cannot exist on the moon.