Prove that the heat solutions of Q=msdt
Answers
Explanation:
The amount of heat developed that represent as Q depends upon certain factors:
for example.
suppose we have two things to heat.
on one hand we have plastic and on the other lies some heavy gauge mild steel rod.
when we start to heat the both the materials at the same time plastic gets heated fast than rod.
This tells that if we are heating or supplying same source also depending upon the molecules it burns.
therefore
- Size of molecules = mass of the material.
and while heating any object the temperature changes gradually.
Heat flows from hottest end to cold side .
therefore
there Will be two temperature ️
- The Initial
- The Final
from this we can say
Heat also depends upon temperature.
Q depends upon certain factors they are
- Mass
- Temperature
Proof
From the above factor we can come to point that
i.e Q∝ m …(1)
Q∝ (t2 - t1 )
Q∝ dt …(2)
Combining equation 1 and 2
Q∝ mdt
Removing the proportionality and we get
Q= smdt
where :
Q = Heat
s = proportionality constant
dt = temperature difference
Hence Proved
Answer:
pls mark me as brainliest
Explanation:Explanation:
The amount of heat developed that represent as Q depends upon certain factors:
for example.
suppose we have two things to heat.
on one hand we have plastic and on the other lies some heavy gauge mild steel rod.
when we start to heat the both the materials at the same time plastic gets heated fast than rod.
This tells that if we are heating or supplying same source also depending upon the molecules it burns.
therefore
Size of molecules = mass of the material.
and while heating any object the temperature changes gradually.
Heat flows from hottest end to cold side .
therefore
there Will be two temperature ️
The Initial
The Final
from this we can say
Heat also depends upon temperature.
Q depends upon certain factors they are
Mass
Temperature
Proof
From the above factor we can come to point that
i.e Q∝ m …(1)
Q∝ (t2 - t1 )
Q∝ dt …(2)
Combining equation 1 and 2
Q∝ mdt
Removing the proportionality and we get
Q= smdt
where :
Q = Heat
s = proportionality constant
dt = temperature difference
Hence Proved