Newton's law and forces on the elevator

In summary, the toy car is rolling up an inclined ramp and after it is released it rolls back down again.
  • #1
FaNgS
91
0
(1)An elevator is being lifted up and elevator shaft at a constant speed by a steel cable. All frictional effects are negligible.
In this situation, forces on the elevator are such that?

1. the upward force by the cable is greater than the downward force of gravity.
2. the upward force by the cable is smaller than the downward force of gravity.
3. the upward force by the cable is equal to the downward force of gravity.
4. None of these. (The elevator goes up because the cable is being shortened, not because an upward force is exerted on the eleva-
tor by the cable.)
5. the upward force by the cable is greater than the sum of the downward force of gravity and a downward force due to the air.

Working: my choice is 1, my thought is that since its moving upwards it must mean that the upward force is greater than the downward forces...i neglected 5 since it talks of downward force due to air which is some kind of friction force and the question says to ignore...my choice 1 turned out wrong any idea what's the correct one??

(2)A toy car is given a quick push so that it rolls up an inclined ramp. After it is released, it rolls up, reaches its highest point and rolls back down again. Friction is so small it can be ignored. What net force acts on the car?
1. Net constant force up the ramp
2. Net decreasing force up the ramp
3. Net increasing force down the ramp
4. Net constant force down the ramp
5. Net force of zero
6. Net increasing force up the ramp
7. Net decreasing force down the ramp

Working: I'm confused between them so i did a process of elimination and canceled 5 thinking that since its moving downwards there must be a force acting on the toy car i also canceled choices 1, 6 and 7...1 and 6 because it says force acting upwards which i think isn't possible since the car is moving down the ramp and 7 because if its moving down the ramp the force should be increasing right?

(3)(a)A mass of 1.4 kg lies on a frictionless table, pulled by another mass of 3.1 kg under the influence of Earth's gravity. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the acceleration a of the two masses? Answer in units of m/s^2.
10.jpg


Working:
For the 1.4kg mass: N(normal force) -1.4g=0
N=1.4g
T(tension)=1.4g

For the 3.1kg mass:
T(tension)-3.1g=-3.1a using T=1.4g and subsituting in
1.4g-3.1g=-3.1a
therefore a=5.374193548 m/s^2

i'm not sure at all if this method is right or if there's something I'm missing

(b) T, a and g represent positive quantities. Which equation is correct?
1. T + (1.4 kg) g = (1.4 kg) a
2. T - (1.4 kg) g = (3.1 kg) a
3. (3.1 kg) g ¡ T = (3.1 kg) a
4. T - (3.1 kg) g = (3.1 kg) a
5. T - (3.1 kg) g = (1.4 kg) a
6. (3.1 kg) g - T = (1.4 kg + 3.1 kg) a
7. (3.1 kg) g - T = (1.4 kg) a
8. T - (3.1 kg) g = (1.4 kg + 3.1 kg) a
9. T - (1.4 kg) g = (1.4 kg) a
10. T + (1.4 kg) g = (3.1 kg) a

Working: i chose eqn4 since that's exactly what i got for part (a) but since there's a possiblity of (a) being wrong I'm not sure
 
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  • #2
Welcome to the Forums Fang,
FaNgS said:
(1)An elevator is being lifted up and elevator shaft at a constant speed by a steel cable. All frictional effects are negligible.
In this situation, forces on the elevator are such that?

1. the upward force by the cable is greater than the downward force of gravity.
2. the upward force by the cable is smaller than the downward force of gravity.
3. the upward force by the cable is equal to the downward force of gravity.
4. None of these. (The elevator goes up because the cable is being shortened, not because an upward force is exerted on the eleva-
tor by the cable.)
5. the upward force by the cable is greater than the sum of the downward force of gravity and a downward force due to the air.

Working: my choice is 1, my thought is that since its moving upwards it must mean that the upward force is greater than the downward forces...i neglected 5 since it talks of downward force due to air which is some kind of friction force and the question says to ignore...my choice 1 turned out wrong any idea what's the correct one??
You may wish to reconsider your answer here. Consider Newton's First law and this excerpt from the question;
FaNgS said:
An elevator is being lifted up and elevator shaft at a constant speed by a steel cable.
FaNgS said:
(2)A toy car is given a quick push so that it rolls up an inclined ramp. After it is released, it rolls up, reaches its highest point and rolls back down again. Friction is so small it can be ignored. What net force acts on the car?
1. Net constant force up the ramp
2. Net decreasing force up the ramp
3. Net increasing force down the ramp
4. Net constant force down the ramp
5. Net force of zero
6. Net increasing force up the ramp
7. Net decreasing force down the ramp

Working: I'm confused between them so i did a process of elimination and canceled 5 thinking that since its moving downwards there must be a force acting on the toy car i also canceled choices 1, 6 and 7...1 and 6 because it says force acting upwards which i think isn't possible since the car is moving down the ramp and 7 because if its moving down the ramp the force should be increasing right?
I suggest that you draw a free body diagram here and lable all the forces acting.
FaNgS said:
(3)(a)A mass of 1.4 kg lies on a frictionless table, pulled by another mass of 3.1 kg under the influence of Earth's gravity. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the acceleration a of the two masses? Answer in units of m/s^2.
10.jpg


Working:
For the 1.4kg mass: N(normal force) -1.4g=0
N=1.4g
T(tension)=1.4g
What exactly leads you to the conclusion that the tension must be 1.4g? Again, here I suggest you draw a diagram and label all the forces acting.
 
  • #3
Newtons first law?? I'm even more confused! how does Newtons 1st law apply here?

i'm drawing some free body diagrams now
 
  • #4
FaNgS said:
Newtons first law?? I'm even more confused! how does Newtons 1st law apply here?
Newton's First Law;
"Also called the "law of inertia," Newton's first law states that body at rest remains at rest and a body in motion continues to move at a constant velocity unless acted upon by an external force."
An alternative version;
"If no external force acts on a particle, then it is possible to select a set of reference frames observed from which the particle is seen to move without any change in its velocity."
Note here the words constant and velocity.
FaNgS said:
i'm drawing some free body diagrams now
Good :approve:
 
  • #5
for the 2nd question about the toy car, i know that there is a component of the weight acting down the ramp, and that there is no backward force up the ramp since friction is ignored. I'm not sure if we can say that there is a an accelartion force acting down the ramp or not...if there is umm then the answer is 3?

for the 3rd question i took T=1.4g since that there is no other force acting in the x direction and using F=ma with the force as T then T=1.4a
 
  • #6
FaNgS said:
for the 2nd question about the toy car, i know that there is a component of the weight acting down the ramp, and that there is no backward force up the ramp since friction is ignored. I'm not sure if we can say that there is a an accelartion force acting down the ramp or not...if there is umm then the answer is 3?
But why should the force increase?
FaNgS said:
for the 3rd question i took T=1.4g since that there is no other force acting in the x direction and using F=ma with the force as T then T=1.4a
Why should the acceleration be g?
 
  • #7
oooh so for question 3 its supposed to be 1.4a-3.1g=-3.1a then a=6.751111 m/s^2 correct?

for the 2nd part of question 3 since it says take t a and g as positive quantities I'm not sure but according to my working on paper I'm getting eqn 8 to be correct T-3.1g=(1.4+3.1)a ? this is too hard :'(
 
  • #8
i'm assuming that the car accelarates down the ramp
 
  • #9
ok so for quetion 1 about the elevator since there is not external force acting on the elevator it will move in constant speed according to Newtons law which is the case here because it states in the question that the elevator moves with constant speed therefore the upward force by the cable is equal to the downward force of gravity
 
  • #10
what does it mean by T, a and g are positive quantities? do i take them as positive for this part ?
 
  • #11
FaNgS said:
oooh so for question 3 its supposed to be 1.4a-3.1g=-3.1a then a=6.751111 m/s^2 correct?
Correct :approve:
FaNgS said:
i'm assuming that the car accelarates down the ramp
Indeed it does, the important part here is to decide whether it accelerates at a constant rate or otherwise.
FaNgS said:
ok so for quetion 1 about the elevator since there is not external force acting on the elevator it will move in constant speed according to Newtons law which is the case here because it states in the question that the elevator moves with constant speed therefore the upward force by the cable is equal to the downward force of gravity
Correct :approve:
FaNgS said:
what does it mean by T, a and g are positive quantities? do i take them as positive for this part ?
That's right. I have just one question, are you sure that option three in the last question is written like this;
FaNgS said:
3. (3.1 kg) g ¡ T = (3.1 kg) a
 
  • #12
(3.1 kg) g ¡ T = (3.1 kg) a instead of the i it should be minus

correct one should be like this sorry for typo (3.1 kg) g - T = (3.1 kg) a
 
  • #13
eqn 4 and 8 seem wrong..if i put T a and g postive i don't get any eqn from the 10 choices
 
  • #14
FaNgS said:
(3.1 kg) g ¡ T = (3.1 kg) a instead of the i it should be minus

correct one should be like this sorry for typo (3.1 kg) g - T = (3.1 kg) a
No problem, that makes more sense :smile:
FaNgS said:
eqn 4 and 8 seem wrong..if i put T a and g postive i don't get any eqn from the 10 choices
Okay, let's examine what you written previously;
FaNgS said:
oooh so for question 3 its supposed to be 1.4a-3.1g=-3.1a then a=6.751111 m/s^2 correct?
So you written;

[tex]1.4a-3.1g=-3.1a[/tex]

Now, after a little manipulation (multiply both sides by -1)we have;

[tex]3.1g - 1.4a = 3.1a[/tex]

Now, note that [itex]T = 1.4a[/itex]; does this look like any of the options...:wink:
 
  • #15
lol it now makes sense :)
lol i just reviewed my work i didnt multiply the T by -1 i forgot about it :P silly me
thanks a lot oh and I'm sorry for the confusion there

gtg study Newtons first law :) thanks again
 
  • #16
one more thing..its my first time in any forum so after we're done do i have to stamp something or tell people that we're done in this place? any paper work to fill??
 
  • #17
FaNgS said:
lol it now makes sense :)
lol i just reviewed my work i didnt multiply the T by -1 i forgot about it :P silly me
thanks a lot oh and I'm sorry for the confusion there

gtg study Newtons first law :) thanks again
No problem, twas a pleasure :smile:
 
  • #18
FaNgS said:
one more thing..its my first time in any forum so after we're done do i have to stamp something or tell people that we're done in this place? any paper work to fill??
Nope, nothing to fill in or stamp; thanks for asking though, its nice to have a conscientious student for a change...:rolleyes:

If its your first time, you might want to introduce yourself in General Discussion; there's something that goes on down there with a fish ... :confused: ... never understood it myself...
 

1. What is Newton's first law and how does it apply to elevators?

Newton's first law, also known as the law of inertia, states that an object at rest will remain at rest and an object in motion will remain in motion at a constant velocity unless acted upon by an external force. In the case of elevators, this means that if the elevator is at rest or moving at a constant speed, it will continue to do so unless an external force, such as a change in the elevator's direction or speed, is applied.

2. How does Newton's second law relate to the forces acting on an elevator?

Newton's second law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. In the case of an elevator, the net force acting on it is the sum of all the forces, such as gravity and the force of the motor, and its acceleration is determined by its mass. This law helps explain why an elevator may feel heavier or lighter as it moves up or down.

3. What is the difference between weight and mass in relation to an elevator?

Weight is a measure of the force of gravity acting on an object, while mass is a measure of the amount of matter in an object. In an elevator, your weight may feel different depending on whether the elevator is accelerating or decelerating, but your mass remains the same. This is because the force of gravity acting on you and the elevator is constantly changing.

4. Can an elevator experience a net force of zero?

Yes, it is possible for an elevator to experience a net force of zero. This can happen when the elevator is at rest or moving at a constant velocity. In these cases, the forces acting on the elevator, such as gravity and the force of the motor, are balanced and there is no acceleration.

5. How do different forces, such as gravity and friction, impact the motion of an elevator?

Different forces can impact the motion of an elevator in different ways. Gravity is the force that pulls the elevator down towards the Earth, and it is counteracted by the force of the motor to keep the elevator moving. Friction, on the other hand, can slow down the elevator's motion by creating resistance against its movement. Other forces, such as air resistance and the force of the cables, also play a role in the motion of an elevator.

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