yes. i am doing a report on it now and i am finding out many ways temperature affects objects. just think about the states of matter. how does a solid turn into a liquid? temperature. an example of this is melting ice cream :) yes. i am doing a report on it now and i am finding out many ways temperature affects objects. just think about the states of matter. how does a solid turn into a liquid? temperature. an example of this is melting ice cream :)
the atoms Begin to vibrate quicker also electron's may jump to higher energy level Then fall Back Down when This happens it...
All thermal energy flows from high temperature objects to low temperature objects. This is the nature of thermal energy.
Faster.
The same can be said about objects, As long as temperature does not change color, composition, or state of the object, they will always reflect (thus also absorb) roughly the same amount of light.
The teamperature does not change
From one object to another due to a temperature difference between them
how do objects change temperature
its temperature is increased and if temperature supplied continously phase change can be changed
"temperature"
The thermal conductivity temperature of different objects vary from one object to another. When the two objects are placed together, there will be a change in temperature through heat conduction.
when energy is transeferd through and from objects. This process could change variables in an objects such as; temperature, speed, weight, duration, ect., dpending on what the objects are.
No.
Newton's law of cooling applies to objects that are both heating and cooling. Newton's Law of Cooling states that the rate of change of the temperature of an object is proportional to the difference between its own temperature and the temperature of its surroundings.
What could be the temperature of hot objects compared to Cold objects?
when abody is heated definitely its thermal energy increases so far that it can even cause a change in its physical appearance
Thermal energy :D
An objects temperature and the number of particles
In this case, no heat will flow between the objects. At least, there will be no "net" heat flow. The objects are said to be in thermal equilibrium, so that any heat exchanged by their molecules is balanced and there is no net change in temperature.