0
How do machines make work easier if it still requires the same amount of work to be done?
The reason for the apparent logical problem is the mushy word "easier". In a Physics
textbook, I don't think you'll ever see a description of simple machines that says that
they make work "easier". If somebody wants to say that about machines, then the
first thing they'll have to do is to give us the scientific definition of exactly what they
mean by "easy", and how you measure it.
What a machine can do is reduce the amount of force you need in order to do a job.
But you'll pay for that, because in return, you'll have to move your force through a
longer distance.
I'm picturing a situation where you have two boards that are nailed together, and
you need to separate them. You only have to move them one inch apart and the
nails will let go. So you reach into your tool box and take out your pry-bar. It's
nothing but a flat metal bar, with one end tapered down to a skinny edge, and
the last couple inches of that same end are bent a little bit. You jam the skinny
edge in between the two boards and you get ready to pry. (The high-school kid
who's helping out on the job for the summer is watching. He's noticed that you've
got a first-class lever in you hand, but he's not going to say anything because he
knows that all the guys will laugh at him, and they'll be using that to yank his
chain for the rest of the summer, so he keeps his observations to himself.)
Now you pry down about a foot and a half on your end of the pry bar, and at
the other end, the little bent end of the bar separates the two boards by about
one inch, the nails let go, and the boards separate.
What happened here ? Lets you and I step over to the side of the yard for a
minute and talk about it. And call the kid over to join us, because he's the one
here who can explain it best.
Your pry-bar is a first-class lever. The little bend in it, two inches from one end,
is the pivot of the lever. You cranked your end about a foot and a half, and the
short end separated the boards about an inch. At the same time, the force that
separated the two boards was 18 times stronger than the force you had to
put into it. The kid knows that scientifically, "work" is (force) multiplied by (distance),
and the work at your end was exactly the same as the work at the short end.
Did the first class lever make the job "easier" ? I don't know. You had to crank
your end through all that extra distance, and the work at both ends came out
the same. What was the point of using the machine ?
It's absolutely true that you could have done the job without the machine, and
exerted your force through a much shorter distance. All you had to do was grab
one of the boards with your finger-tips, and pull it an inch away from the other
board with a force of 600 pounds.
The foreman over there with the crane-claws for hands and the 3/4" winch-line
for muscles might have done it that way, but you couldn't. Using the pry-bar,
you traded distance for more force.
In the language pf Physics, the work was the same at both ends. But I'd say
the first-class lever definitely made the job "easier" for you.
What else can I help you with?
How is machines make work easier if they still require the same amount of work be done?
Machines make work easier by allowing humans to leverage mechanical advantage and technology to accomplish tasks more efficiently. While the same amount of work may still need to be done overall, machines can reduce the physical effort required by individuals and enable tasks to be completed more quickly and with less manual labor.
Explain How machines make work easier if they still require that the same amount of work done?
Machines make work easier by allowing tasks to be completed more quickly and with less effort from humans. Even if the same amount of work is required, machines can increase efficiency, productivity, and precision compared to manual labor. This ultimately saves time and reduces the physical strain on workers.
When we use a simple machine do we do less work?
Simple machines make work easier by allowing us to apply force over a greater distance, but the amount of work done remains the same. This means that while we may exert less force when using a simple machine, we still need to exert the same amount of work.
Is going straight up a hill easier or going up a curved hill easier?
Depends on if you're looking at energy, or power. Straight or crooked, you've still got the same height to conquer, so it'll cost you pretty much the same amount of energy. But going straight up requires more power, as you have to gain more height for each step/distance traveled. And particularly when it comes to biological machines - living beings - as opposed to mechanical machines, spending a little effort over a longer time is often considered less tiring than than spending more effort over a shorter time. It's like tackling a set of stairs, one, or three steps at a time.
What kind of energy can a simple machine transfer?
Do you mean one that obeys SHM (simple harmonic motion)?It will just basically, as it goes through its oscillation, transfer energy between potential energy and kinetic energy. There are other machines that use SHM, particularly in the field of electromagnetism, but they work on different princiapls, although still obey SHM.
How is machines make work easier if they still require the same amount of work be done?
Machines make work easier by allowing humans to leverage mechanical advantage and technology to accomplish tasks more efficiently. While the same amount of work may still need to be done overall, machines can reduce the physical effort required by individuals and enable tasks to be completed more quickly and with less manual labor.
Explain How machines make work easier if they still require that the same amount of work done?
Machines make work easier by allowing tasks to be completed more quickly and with less effort from humans. Even if the same amount of work is required, machines can increase efficiency, productivity, and precision compared to manual labor. This ultimately saves time and reduces the physical strain on workers.
Do simple machines change the amount of work done?
No you still do the same amount of work
Do simple machines change the amount of work being done?
No you still do the same amount of work
When we use a simple machine do we do less work?
Simple machines make work easier by allowing us to apply force over a greater distance, but the amount of work done remains the same. This means that while we may exert less force when using a simple machine, we still need to exert the same amount of work.
Explain how machines can make work easier without violating the law of conservation of energy?
A simple machine will increase the total time effort must be exerted and decrease the amount of effort required in any given second. The law of conservation of energy still holds because it still take the same amount of energy to get the job done.
What is better A modern day Marine or a World War 2 soldier?
Technology has made today's battlefield easier to survive on, but it still requires boots on the ground to win a war.
Are linotype machines still used?
no sadly not
Are sewing machines used in the world today?
To the best of my knowledge people still use hand sewing machines
Is going straight up a hill easier or going up a curved hill easier?
Depends on if you're looking at energy, or power. Straight or crooked, you've still got the same height to conquer, so it'll cost you pretty much the same amount of energy. But going straight up requires more power, as you have to gain more height for each step/distance traveled. And particularly when it comes to biological machines - living beings - as opposed to mechanical machines, spending a little effort over a longer time is often considered less tiring than than spending more effort over a shorter time. It's like tackling a set of stairs, one, or three steps at a time.
Are revox audio tape machines still made?
NO
What is harder Chinese or Japanese?
Japanese is an easier language to learn for a foreigner due to the use of things such as okurigana. And yes, Japanese still requires you to remember a lot of kanji in order to read it fluently.
