There is no such thing as the angle of insulation. If you mean the angle of incidence then the more direct the radiation then there will be more energy per unit area..
No. The doors of the fridge have insulation in them, and the magnetic force does not affect temperature inside the fridge whatsoever.
I am assuming you mean "how does it affect energy use". Heat is energy, the kinetic (moving) energy of the atoms in a substance. The hotter the temperature, the faster the atoms or molecules are moving. Heat energy moves via a number of mechanisms from high temperatures to low temperatures. Thermal insulation doesn't change the energy, or temperature of an object, it merely slows the rate of movement between the object and its surroundings. Polished bright metals can lower the transfer of energy via radiation. Small pockets of unmoving air (like in foam or fiberglass) can slow the transfer of energy by convection. Other materials, like paper or some plastics, conduct heat poorly. So thermal insulation can help keep hot things hotter, longer or cold things colder longer than without insulation. Or put another way, it takes less energy to maintain an insulated object at a given temperature than without insulation.
temperature does affect the bounce of a ball!
Insulation prevents objects from conducting heat. It can also be applied around some object to prevent heat from escaping. A thermos is a good example of how insulation can prevent objects from rapid cooling.
The thicker the insulation, the more heat is kept in your home. This is because inside the insulation are tiny air bubbles, witch are not good conductors of heat. This means that the heat energy can not pass through it.
Insulation affects body temperature by keeping heat around your body to keep your blood flowing. The most useful insulation article is usually wool. Several thin layers of insulation are more effective than fewer thick layers.
The subcutaneous tissue is the where the adipose tissue resides and offers insulation. Lack of this insulation will cause sensitivity to cold environmental temperatures.
No. The doors of the fridge have insulation in them, and the magnetic force does not affect temperature inside the fridge whatsoever.
thermal effect
a higher temperature increases elasticity to fabric as temperature breaks bonds between molecules of the fabric
the weather
the weather
Yes, whether thermal insulation or electrical insulation, replacing air with water in the voids of a material will affect its insulating abilities.
Yes Thinner insulation is more loss - not as much loss as with no insulation Thicker insulation less loss.
I am assuming you mean "how does it affect energy use". Heat is energy, the kinetic (moving) energy of the atoms in a substance. The hotter the temperature, the faster the atoms or molecules are moving. Heat energy moves via a number of mechanisms from high temperatures to low temperatures. Thermal insulation doesn't change the energy, or temperature of an object, it merely slows the rate of movement between the object and its surroundings. Polished bright metals can lower the transfer of energy via radiation. Small pockets of unmoving air (like in foam or fiberglass) can slow the transfer of energy by convection. Other materials, like paper or some plastics, conduct heat poorly. So thermal insulation can help keep hot things hotter, longer or cold things colder longer than without insulation. Or put another way, it takes less energy to maintain an insulated object at a given temperature than without insulation.
Propane boils at -44F so there is 'no flow' below this temperature, it will not vaporize. The ignition temperature is between 920 to 1200F.
Yes, it does affect the volume. The relationship between them can be explained by the equation pV=nRT (pressure x volume = number of moles of gas x molar gas constant x temperature). Therefore, there is a direct proportionality between temperature and volume. If the temperature doubles, so does the volume.