The ratio of temperatures must be calculated for the absolute temperatures - not temps measures on the Celsius scale.
So, the temperature increases from 273.15 K to 333.15 K.
333.15/273.15 = 1.2197
Therefore, the volume will increase by a multiple of 1.2197.
This answer assumes that all other factors remain unchanged. That is unlikely since the elasticity of the balloon is likely to be affected by the change in temperature.
Its a change of 300
The change is 7 Celsius degrees (NOT degrees Celsius).
A rise of 7°
265
The resultant decreases from 0 degrees until the angle is 180 degrees and then increases until 360 degrees.
Its a change of 300
Yes, it is a physical change. Nothing chemically changed about the balloon.
Physical, because the balloon did not have a change in its chemical composition when it broke.
15 degrees is the difference between 68 and 53 degrees Fahrenheit.
no, bursting of balloons is a physical change as the only change that occurs that that the shape of the balloon changes . Coming out of air is not a chemical change.
The change is 7 Celsius degrees (NOT degrees Celsius).
A rise of 7°
It is a physical change.
A physical property can be observed without changing the material's composition. A chemical property can only be observed when a chemical change takes place.
When thinking of a balloon, it's best to think of two different chemical compounds that do not mix, the balloon itself and air. What makes the balloon pop is that the pressure of the air exceeds the force of the chemical bonds of the balloon. In order for a chemical reaction to take place, you need to start off with one set of chemicals that become a new set of chemicals.However, when a balloon pops, no new chemicals are created. All that happens is that the electron bonds of the compound we know of as the balloon break.
physical change
physical change