Asked by connexions perosn
How do you calculate the work done on an object when you push it?(1 point)
You subtract the force you apply from the distance over which you are pushing.
You multiply the force you apply by the distance over which you are pushing.
You divide the force you apply by the distance over which you are pushing.
You add the force you apply to the distance over which you are pushing
You subtract the force you apply from the distance over which you are pushing.
You multiply the force you apply by the distance over which you are pushing.
You divide the force you apply by the distance over which you are pushing.
You add the force you apply to the distance over which you are pushing
Answers
Answered by
connexions perosn
some one answer this for me and if you can the entire practice
Answered by
🐯🐾Tiger🐾🐯
The work W done on an object by a constant force is defined as W = F·d. It is equal to the magnitude of the force, multiplied by the distance the object moves in the direction of the force.
Answered by
🐯🐾Tiger🐾🐯
It's called Google!
Answered by
connexions perosn
nvm i got 100%
Answered by
connexions perosn
its called using your brain
Answered by
🐯🐾Tiger🐾🐯
I was kidding with the google stuff. Sorry i messes with u. Good job!!
Answered by
Katsuki Bakugo
You multiply the force you apply by the distance over which you are pushing.
120 joules
The total amount of force is less, although the distance traveled is greater.
It allows objects to be lifted with less force and applied in a downward direction.
the amount of energy used to move an object
to change the direction of the force needed to move the block
A lever is a type of simple machine made of a bar that pivots on a fixed point called a fulcrum, which reduces effort needed while producing more work to move a load.
force = work / distance
the point where a lever pivots
a car that traveled 25 kilometers on 1 liter of gas
Machines must overcome forces of friction.
80%
120 joules
The total amount of force is less, although the distance traveled is greater.
It allows objects to be lifted with less force and applied in a downward direction.
the amount of energy used to move an object
to change the direction of the force needed to move the block
A lever is a type of simple machine made of a bar that pivots on a fixed point called a fulcrum, which reduces effort needed while producing more work to move a load.
force = work / distance
the point where a lever pivots
a car that traveled 25 kilometers on 1 liter of gas
Machines must overcome forces of friction.
80%
Answered by
navdhajdvwhjs
1. You multiply the force you apple by the same distance over which you are pushing
2. 120 Joules
3.The total amount of force is less although the distance traveled is greater
4.it allows objects to be lifted with less force and applied in a downward direction
5.the amount of energy used to move an object
6.to change the direction of force needed to move the block
7.a lever is a type of simple machine.......
8. force=work/distance
9.the point where a lever pivots
10.a car that traveled 25 kilometers on 1 liter of gas
11. Machines must overcome forces of friction
12.80%
2. 120 Joules
3.The total amount of force is less although the distance traveled is greater
4.it allows objects to be lifted with less force and applied in a downward direction
5.the amount of energy used to move an object
6.to change the direction of force needed to move the block
7.a lever is a type of simple machine.......
8. force=work/distance
9.the point where a lever pivots
10.a car that traveled 25 kilometers on 1 liter of gas
11. Machines must overcome forces of friction
12.80%
Answered by
SpaceBoy
Katsuki Bakugo is right! 100% :)
Answered by
Baby boy 32
12 is 80%
Answered by
Animal Lover
Katsuki Bakugo is right and navdhajdvwhjs. Thanks. 12/12. 100%
Answered by
eijiro kirishima
Katsuki bakugo is right!
Answered by
chimckem
hellppppppppppppppppp
Answered by
JayyDub#5741
Katsuki Bakugo Still right in 2023🥵
Answered by
izuku midoriya
Thanks kacchan 😁
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