Finding the change in mass of a charged body if it loses 1 C

AI Thread Summary
The discussion focuses on calculating the mass change of a charged body that loses 1 Coulomb of negative charge, equating to approximately 6.642 x 10^18 electrons. Participants clarify that losing electrons decreases the mass of the body, and the mass lost can be determined by multiplying the number of electrons lost by the mass of a single electron, which is 9 x 10^-31 kg. The calculations reveal that the total mass lost is around 6 x 10^-12 kg, highlighting the minuscule weight change compared to everyday objects. This illustrates why electricity was historically considered weightless, as the mass change is negligible. Understanding these calculations is essential for grasping the relationship between charge and mass in physics.
SimpleBurrito
Messages
9
Reaction score
0

Homework Statement


The mass of an electron is 9*10^-31kg. Find the charge in mass of a charged body if it loses 1 Coulomb of negative charge. Use your answer to explain why electricity was originally thought to be weight less.

1 coulomb = 6.642*10^18 elementary charges.

Homework Equations


Everything given in question is above.

The Attempt at a Solution


Since we know that charging of a body depends upon transfer of electrons. So, if a body becomes negatively charged it will gain electrons that is its mass will increase and if a body becomes positively charged it loses electrons hence its mass will decrease. Don’t know where to start with formulas etc. help would be appreciated.
 
Physics news on Phys.org
Here you are losing negative charge, thus losing electrons. How many are lost? What total mass is lost?
 
I’m not sure. Are there formulas for it?
 
SimpleBurrito said:
1 coulomb = 6.642*10^18 elementary charges.
That's one key fact. (Consider an electron to be an elementary charge.)
 
I don't understand a lot of physics, but in this question if the body losses 1C of electrons, and 1C of electrons are 6.642E18 electrons, then you has the electron mass above in the statement of problem... Can you now solve this problem?

I do not know if maybe there is an error in my reasoning. ; -)
 
Doc Al said:
That's one key fact. (Consider an electron to be an elementary charge.)
I’m really not sure where to start with calculations, and it’s due tomorrow. If you’ve worked it out how’d you do it?
 
Can you answer this? How many electrons were removed from the charged body?
 
Doc Al said:
Can you answer this? How many electrons were removed from the charged body?
does it lose 6.642*10^-31 electrons?
 
if it does how do I find out how much that weighs in kg's?
 
  • #10
SimpleBurrito said:
does it lose 6.642*10^-31 electrons?
No. See this:
SimpleBurrito said:
1 coulomb = 6.642*10^18 elementary charges.

SimpleBurrito said:
if it does how do I find out how much that weighs in kg's?
Once you get the correct number of electrons, you can make use of the mass of each electron (which is given) to find the total mass.
 
  • #11
What’s the mass of the charged body?
 
  • #12
Doc Al said:
No. See this:
Once you get the correct number of electrons, you can make use of the mass of each electron (which is given) to find the total mass.
How? I don’t understand
 
  • #13
Alright I got 6*10^-12 is that right ?
 
  • #14
SimpleBurrito said:
What’s the mass of the charged body?
That wasn't specified, which makes the problem somewhat ambiguous.

SimpleBurrito said:
Alright I got 6*10^-12 is that right ?
In kg, that would be correct. (Don't forget units!)

Mass of electrons lost = (Number of electrons lost) X (mass of each electron)

How does that mass compare to the mass of an "everyday" object?
 

Similar threads

Understanding Fundamentals of Electronics: Solving an Electric Charge Problem
Replies
11
Views
2K
What is the initial charge of the second object in Coulombs?
Replies
3
Views
2K
Analyzing Forces & Electrons: Free Body Diagram
Replies
2
Views
2K
Van der Graaf Generator: Charge, Potential and Redesign Questions
Replies
8
Views
2K
Electric Charge and Force free body diagrams
Replies
1
Views
4K
Uniform Circular Motion Inside a Sphere of Charge
Replies
7
Views
3K
Calculate Electric Potential from Non-uniform Linear Charge
Replies
20
Views
6K
Frictional charging and weight of the body involved
Replies
1
Views
4K
Electron moving between 2 point charges
Replies
8
Views
1K
Finding the Electric Field Inside a Charged Sphere
Replies
21
Views
3K

Hot Threads

Recent Insights

Back
Top