course Phy 231 |Õ¹å´ÙãØÏH¯¾ž¬ûŠ˜½¹Xœ¨¬Ú´¢}assignment #010
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16:50:46 `q001. If a block of mass 10 kg accelerates at 2 m/s^2, then what net force is acting on the block?
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RESPONSE --> We have the equation: Force = mass * acceleration We know the mass and acceleration so it's direct substitution: Force = 10kg * 2 m/s^2 Force = 20N confidence assessment: 3
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16:50:51 The net force on the block is the product F = m * a of its 10 kg mass and its 2 m/s^2 acceleration. The net force is therefore F = 10 kg * 2 m/s^2 = 20 kg * m / s^2. The unit of force, which is the product of a quantity in kg and another quantity in m/s^2, is just the algebraic product kg * m/s^2 of these two units. This unit, the kg * m / s^2, is called a Newton. So the net force is 20 Newtons.
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RESPONSE --> OK self critique assessment: 2
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16:52:24 `q002. How much force must be exerted by someone pulling on it to accelerate a 10 kg object at 2 m/s^2?
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RESPONSE --> The same equation as before, Force = mass * acceleration Force = 20kg * 2 m/s^2 Force = 20N confidence assessment: 3
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16:52:50 This depends on what forces might be resisting the acceleration of the object. If the object is accelerating on a surface of some type, then there is a good chance that a frictional force is opposing the motion. If the object is being pulled upward against the force of gravity, then more force is required then if it is sliding along a low-friction horizontal surface. If it is being pulled downhill, the force exerted by gravity has a component in the direction of motion and perhaps even less force is required. However, in every case the net force, which is the sum of all the forces acting on the object, must be 20 Newtons. The person pulling on the object must exert exactly enough force that the net force will be 20 Newtons.
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RESPONSE --> ok self critique assessment: 1
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16:54:25 `q003. If friction exerts a force of 10 Newtons in the direction opposite the motion of a 10 kg object, then how much force must be exerted by someone pulling on it to accelerate the 10 kg object at 2 m/s^2, with the acceleration in the same direction as the motion?
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RESPONSE --> The sum of the net forces has to equal 20Newtons in order for a 10kg object to move in the positive direction of motion. If there is a 10N resistance force, then the person pulling it would have to exert a 30N force to overcome the 10N opposing force. Then the net force is 20N which can be found by multiplying the mass of the object times its acceleration. confidence assessment: 3
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16:54:59 Since the 10 Newton frictional force is in the direction opposite to motion, and since the acceleration is in the same direction as the motion, the frictional force is opposed to the accelerating force. If the direction of motion is taken as positive, then the frictional force will be in the negative direction and can be denoted fFrict = - 10 Newtons. To achieve the given acceleration the net force on the object must be net force = 10 kg * (+2 m/s^2) = +20 kg * m/s^2 = +20 Newtons. In order to achieve the +20 Newton net force when there is already a frictional force of -10 Newtons, it should be clear that a force of +30 Newtons is required. This can be thought of as 10 Newtons to overcome friction and another 20 Newtons to achieve the required net force.
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RESPONSE --> OK self critique assessment: 2
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16:58:37 `q004. How can we write an equation to solve this problem? Hint: What equation would relate the net force Fnet, the force F exerted by the person and the force fFrict of friction?
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RESPONSE --> If we know the net force is the sum of the forces, then we have one equation: Fnet = Fx + Ffric where Fx represents the force being exerted by whoever is pushing the object. So we can find the force necessary to accelerate the object to 2 m/s^2 by the equation: Fnet = mass * acceleration acceleration = Fnet / mass confidence assessment: 3
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16:58:51 If Fnet is the net force and F the force actually exerted by the person, then Fnet = F + fFrict. That is, the net force is the sum of the force exerted by the person and the frictional force. We know that Fnet is +20 Newtons and fFrict is -10 Newtons, so we have the equation 20 Newtons = F + (-10 Newtons). Solving for F we see that F = 20 Newtons + 10 Newtons = 30 Newtons.
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RESPONSE --> OK self critique assessment: 2
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17:00:58 `q005. If a constant net force of 12 Newtons acts on a cart of mass 6 kg, then at what rate does the velocity of the cart change?
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RESPONSE --> The rate of change of the velocity is just the acceleration so we can just use the equation: Fnet = mass * acceleration If we know the net force and the mass then we can find the rate of change of velocity by: acceleration = Fnet / mass confidence assessment: 3
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17:02:12 The velocity of the cart will change at a rate a which is related to the net force and the mass by Fnet = m * a. Thus a = Fnet / m = 12 Newtons / (6 kg) = 12 kg * m/s^2 / (6 kg) = 2 m/s^2. We note that the force unit Newtons is broken down to its fundamental units of kg * m / s^2 in order to perform the unit calculation. Dividing kg * m / s^2 by kg we have (kg / kg) * m/s^2 = m/s^2. It is important to always do the unit calculations. This habit avoids a large number of errors and also can be used to reinforce our understanding of the relationships in a problem or situation.
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RESPONSE --> Ok, I didn't work out the problem because we already had, but I understand everything here. self critique assessment: 1
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17:06:15 `q006. If a force of 50 Newtons is exerted in the direction of the object's motion by a person, on a 20 kg object, and if friction exerts a force of 10 Newtons opposed to the direction of motion, then what will be the acceleration of the object?
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RESPONSE --> First we must find the net forces. Fnet = F + Ffric Fnet = 50N + -10N Fnet = 40N The 10N is negative because it is acting against the direction of motion. We can now use the formula Fnet = mass * acceleration 40N = 20kg * acceleration acceleration = 40N / 20kg acceleration = 20N/kg To get the correct units we have to take the interpertation of N = kg * m/s^2 ( 20 kg * m/s^2 ) / kg = 20 m/s^2 Therefore the acceleration of the object is 20 m/s^2. confidence assessment: 3
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17:06:20 The object will accelerate at a rate determined by Newton's Second Law, Fnet = m * a. The acceleration will therefore be a = Fnet / m. The net force on the object will be the sum of the 50 Newton force in the direction of motion and the 10 Newton force opposed to the direction of motion. If we take the direction of motion as positive, then the net force is Fnet = 50 N - 10 N = 40 N. It follows that the acceleration is a = Fnet / m = 40 N / (20 kg) = 40 kg m/s^2 / (20 kg) = 2 m/s^2.
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RESPONSE --> OK self critique assessment: 2
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17:13:23 `q007. If a force of 50 Newtons is exerted opposite to the direction of the object's motion by a person, on a 20 kg object, and if friction exerts a force of 10 Newtons opposed to the direction of motion, then what will be the acceleration of the object?
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RESPONSE --> The force of friction is always opposite to the direction of motion. If we exert an extra 50N in the direction opposite of motion, then it has the same sign as the friction. Fnet = F1 + F2 + Ffric where F1 = the force pusing it in the direction of motion, F2 = the 50N force exerted against it in the opposite direction, and Ffric is the 10N force of friction acting against the direction of motion, then Fnet = F -60 Acceleration = Fnet / mass Acceleration = F - 60N / 20kg confidence assessment: 3
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17:14:38 If we take the direction of motion to be positive, then since both the 50 Newton force and the 10 Newton force are opposed to the direction of motion the net force must be net force = -50 Newtons - 10 Newtons = -60 Newtons. The acceleration of the object will therefore be a = Fnet / m = -60 Newtons / (10 kg) = -60 kg * m/s^2 / (20 kg) = -3 m/s^2. The fact that the acceleration is opposed to the direction of motion indicates that the object will be slowing down. The force exerted by the person, being in the direction opposite to that of the motion, is seen to be a retarding force, as is friction. So in this case the person is aided by friction in her apparent goal of stopping or at least slowing the object.
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RESPONSE --> I didn't get the final answer because I was confused about part of the question, I assumed the object was moving in the positve direction of motion with some force acting in the direction of motion, I didn't realize the object was at rest. I did get the right net force with the exception that F1 = 0 because it was stationary. self critique assessment: 1
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17:27:34 `q008. If a 40 kg object is moving at 20 m/s, then how long will a take a net force of 20 Newtons directed opposite to the motion of the object to bring the object to rest?
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RESPONSE --> We know that Fnet = mass * acceleration. 20N = 40kg * acceleration Acceleration = 0.5 m/s^2 in the oppisite direction so it has an acceleration of -0.5m/s^2 acting against it. If it's moving in the positive direction at 20 m/s and has an acceleration of 0.5m/s^2 in the opposite direction, then we can divide the velocity by the acceleration against it and get: (20 m/s ) / (0.5 m/s^2 ) = 40s to stop the object. We have to do some careful unit cancellations here. (m/s) / (m/s^2) = (m/s)*(s^2/m) where the m's will cancel and s^2 / s will simplify to s giving us the time it will take for the object to stop. confidence assessment: 3
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17:28:11 The force on the object is in the direction opposite its motion, so if the direction of motion is taken to be positive the force is in the negative direction. We therefore write the net force as Fnet = -20 Newtons. The acceleration of the object is therefore a = Fnet / m = -20 Newtons / 40 kg = -20 kg * m/s^2 / (40 kg) = -.5 m/s^2. We can therefore describe uniformly accelerated motion of the object as v0 = 20 m/s, vf = 0 (the object comes to rest, which means its velocity ends up at 0), a = -.5 m/s^2. We can then reason out the time required from the -20 m/s change in velocity and the -.5 m/s^2 acceleration, obtaining `dt = 40 seconds. We can confirm this using the equation vf = v0 + a `dt: Solving for `dt we obtain `dt = (vf - v0) / a = (0 m/s - 20 m/s) / (-.5 m/s^2) = -20 m/s / (-.5 m/s^2) = 40 m/s * s^2 / m = 40 s.
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RESPONSE --> I didn't use the equation, just the fact that cancneling out the units would result in seconds. self critique assessment: 2
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17:30:44 `q009. If we wish to bring an object with mass 50 kg from velocity 10 m/s to velocity 40 m/s in 5 seconds, what constant net force would be required?
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RESPONSE --> If we want to take it from 10m/s to 40m/s, then `dv = 30 m/s. `dt = 5s. acceleration = change in velocity / change in time acceleration = 30 m/s / 5s = 6m/s^2. If the object weighs 50kg and has an acceleration of 6 m/s^2, we can use the formula Fnet = mass * acceleration Fnet = 50kg * 6m/s^2 Fnet = 300N confidence assessment: 3
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17:30:49 The net force would be Fnet = m * a. The acceleration of the object would be the rate which its velocity changes. From 10 m/s to 40 m/s the change in velocity is +30 m/s; to accomplish this in 5 seconds requires average acceleration 30 m/s / (5 s) = 6 m/s^2. Thus the net force required is Fnet = 50 kg * 6 m/s^2 = 300 kg m/s^2 = 300 Newtons.
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RESPONSE --> OK self critique assessment: 2
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17:39:11 `q010. If a constant net force of 50 Newtons brings an object to rest in four seconds from an initial velocity of 8 meters/second, then what must be the mass of the object?
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RESPONSE --> From the problem the object will be going from 8 m/s to 0 m/s (it comes to rest) over 4 seconds so we can find the acceleration from this information. acceleration = (Vf - Vo ) / `dt acceleration = 8/4 acceleratoin = 2 m/s^2 but in the opposite direction of motion. Fnet = acceleration * mass then mass = Fnet / acceleration mass = 50N / 2 m/s^2 mass = 25kg confidence assessment: 3
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17:39:21 We know the net force and we have the information required to calculate the acceleration. We will therefore be able to find the mass using Newton's Second Law Fnet = m * a. We first find the acceleration. The change in velocity from 8 m/s to rest is -8 m/s, and this occurs in 4 seconds. The acceleration is therefore -8 m/s / (4 s) = -2 m/s^2. The 50 Newton net force must be in the same direction as the acceleration, so we have Fnet = -50 Newtons. We obtain the mass by solving Newton's Second Law for m: m = Fnet / a = -50 N / (-2 m/s^2) = -50 kg m/s^2 / (-2 m/s^2) = 25 kg.
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RESPONSE --> OK self critique assessment: 2
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