Bodies connected by the cord and pulley – application of Newton’s law of motion problems and solutions

1. Two boxes are connected by a cord running over a pulley. Ignore the mass of the cord and pulley and any friction in the pulley. Masa of the box 1 = 2 kg, mass of the box 2 = 3 kg, paātrinājums gravitācijas dēļ = 10m/s2. Atrodi (a) The acceleration of the system (b) The tension in the cord!

Bodies connected by cord and pulley - application of Newton's law of motion problems and solutions 1

Šķīdums

Bodies connected by cord and pulley - application of Newton's law of motion problems and solutions 2Zināms:

Mass of the box 1 (m1) = 2 kg

Mass of the box 2 (m2) = 3 kg

Brīvās krišanas paātrinājums (g) = 10 m/s2

Svars of the box 1 (w1) = m1 g = (2)(10) = 20 ņūtoni

Weight of the box 2 (w2) = m2 g = (3)(10) = 30 ņūtoni

šķīdums:

(a) magnitude and direction of the acceleration

w2 > w1box 2 accelerates downward and the box 1 accelerates upward.

Forces that has the same direction with acceleration (w2 un T1), its sign positive. Forces that has opposite direction with acceleration (T2 un w1), its sign negative.

F = ma

w2 - T.2 + T1 - w1 = (m1 +m2) a ——-> T1 = T.2 = T.

w2 – T + T – w1 = (m1 +m2)

w2 - w1 = (m1 +m2)

30 – 20 = (2 + 3) a

10 = 5 a

a = 10 / 5

a = 2 m/s2

Magnitude of the paātrinājums ir 2 m/s2.

(b) The tension force

The box 2 :

There are two forces acts on the box 2 : first, weight of the box 2 (w2), points downward so it’s positive. Second, tension force exerted on the box 2 (T2), points upward so it’s negative. Apply Ņūtona otrais likums of motion.

F = ma

w2 - T.2 = m2 a

30 — T2 = (3)(2)

30 — T2 = 6

T2 = 30 - 6

T2 = 24 ņūtoni

Box 1 :

There are two forces acts on the box 1. Vārds, weight of the box 1 (w1), points downward so it’s negative. Otrā, the tension force exerted on the box 1 (T1) points upward so it’s positive. Apply Newton’s second law of motion :

F = ma

T1 - w1 = m1 a

T1 – 20 = (2)(2)

T1 - 20 = 4

T1 = 20 + 4

T1 = 24 ņūtoni

Spriegojuma spēka lielums = T1 = T.2 = T = 24 ņūtoni

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2. An object on a rough horizontal surface. Mass of the object 1 = 2 kg, mass of the object 2 = 4 kg, acceleration due to gravity = 10 m/s2, coefficient of the static friction = 0.4, coefficient of the kinetic friction = 0.3. The system is at rest or accelerated ? If the system is accelerated, find the magnitude and direction of the system’s acceleration!

Bodies connected by cord and pulley - application of Newton's law of motion problems and solutions 3

Šķīdums

Bodies connected by cord and pulley - application of Newton's law of motion problems and solutions 4Zināms:

Objekta masa 1 (m1) = 2 kg

Objekta masa 2 (m2) = 4 kg

Brīvās krišanas paātrinājums (g) = 10 m/s2

Koeficients statiskā berze (μs) = 0.4

Kinētiskās berzes koeficients (μk) = 0.3

Weight of the object 1 (w1) = m1 g = (2)(10) = 20 ņūtoni

Weight of the object 2 (w2) = m2 g = (4)(10) = 40 ņūtoni

Normāls spēks exerted on the object 1 (N) = w1 = 20 ņūtoni

Force of the static friction exerted on the object 1 (fs) = μs N = (0.4)(20) = 8 ņūtoni

Force of the kinetic friction exerted on the object 1 (fk) = μk N = (0.3)(20) = 6 ņūtoni

Vēlējās: paātrinājums (a)

šķīdums:

w2 fs (40 Newton > 8 Newton) so the object 2 is accelerated vertically downward and the object 1 is accelerated horizontally rightward. The friction force that acts on the objects 1 is the force of the kinetic friction (fk). Apply Newton’s second law of motion :

F = ma

w2 - = (m1 +m2)

40 – 6 = (2 + 4) a

34 = 6 a

a = 34 / 6 = 17 / 3

a = 5.7 m/s2

Paātrinājuma lielums = 5.7 m/s2

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  1. Masa un svars
  2. Normāls spēks
  3. Ņūtona otrais kustības likums
  4. Berzes spēks
  5. Motion on horizontal surface without friction force
  6. Divu ķermeņu kustība ar vienādu paātrinājumu uz nelīdzenas horizontālas virsmas ar berzes spēku
  7. Kustība slīpā plaknē bez berzes spēka
  8. Kustība uz aptuvenas slīpas plaknes ar berzes spēku
  9. Kustība liftā
  10. Ķermeņu kustību savieno auklas un skriemeļi
  11. Divi ķermeņi ar vienādu paātrinājuma lielumu
  12. Plakanas līknes noapaļošana – apļveida kustības dinamika
  13. Slīpas līknes apļošana – apļveida kustības dinamika
  14. Vienmērīga kustība horizontālā aplī
  15. Centripetāls spēks vienmērīgā apļveida kustībā

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