Leņķiskais paātrinājums un lineārais paātrinājums – problēmas un risinājumi

1. A wheel 30 cm in radius rotates at constant 5 rad/s2. What is the magnitude of the linear acceleration of a point located at (a) 10 cm from the center (b) 20 cm from the center (c) on the edge of the wheel?

Zināms:

Rādiuss (r) = 30 cm = 0.3 m

Angular acceleration (α) = 5 rad/s2

Meklē: linear acceleration (a) r = 0.1 m (b) r = 0.2 m (c) r = 0.3 m

šķīdums:

Relation between linear acceleration (a) and angular acceleration :

a = r α

() linear acceleration, r = 0.1 m

a = (0.1 m)(5 rad/s2) = 0.5 m/s2

(B) linear acceleration, r = 0.2 m

a = (0.2 m)(5 rad/s2) = 1 m/s2

(C) linear acceleration, r = 0.3 m

a = (0.3 m)(5 rad/s2) = 1.5 m/s2

Skatīt arī  Daļiņu dinamika – problēmas un risinājumi

2. A pulley 50 cm in radius. If the linear acceleration of a point located on the edge of the pulley is 2 m/s2, determine the angular acceleration of the pulley!

Zināms:

Rādiuss (r) = 50 cm = 0,5 m

linear acceleration (a) = 2 m/s2

Meklē: the angular acceleration

šķīdums:

α = a / r = 2 / 0.5 = 4 rad/s2

3. The blades in a blender 20 cm in radius, initially at rest. After 2 seconds, the blades rotates 10 rad/s. Determine the magnitude of linear acceleration (a) a point located at 10 cm from the center (b) a point located at the edge of the blades.

Zināms:

Rādiuss (r) = 20 cm = 0.2 m

The initial angular velocity (ωo) = 0

The final angular velocity (ωt) = 10 radians/second

Laika intervāls (t) = 2 sekundes

Meklē: the linear acceleration of a point located at (a) r = 0.1 m (b) r = 0.2 m

šķīdums:

ωt = ωo + α t

10 = 0 + α (2)

10 = 2 α

α = 10/2

 α = 5 rad/s

() linear acceleration of r = 0.1 m

a = r α = (0.1 m)(5 rad/s2) = 0.5 m/s2

(B) linear acceleration of r = 0.2 m

a = r α = (0.2 m)(5 rad/s2) = 1 m/s2

Skatīt arī  Leņķiskais ātrums un lineārais ātrums – problēmas un risinājumi

4. A wheel 20 cm in radius is accelerated for 2 seconds from 20 rad/s to rest. Determine the magnitude of linear acceleration (a) a point located at 10 cm from the center (b) a point located at 10 cm from the center.

Zināms:

Rādiuss (r) = 20 cm = 0.2 m

The initial angular speed (ωo) = 20 rad / s

The final angular speed (ωt) = 0

Laika intervāls (t) = 2 sekundes

Meklē: The linear acceleration (a) r = 0.1 m (b) r = 0.2 m

šķīdums:

ωt = ωo + α t

0 = 20 + α (2)

-20 = 2 α

α = -20 / 2

 α = -10 rad/s

Negative sign mean the leņķiskais ātrums is decrease.

() linear acceleration of r = 0.1 m

 a = r α = (0.1 m)(-10 rad/s2) = -1 m/s2

(B) linear acceleration of r = 0.2 m

a = r α = (0.2 m)(-10 rad/s2) = -2 m/s2

Skatīt arī  Applications of Bernoulli's principle

[wpdm_package id='429′]

[wpdm_package id='439′]

  1. Leņķa mērvienību konvertēšanas paraugu problēmas ar risinājumiem
  2. Leņķiskās un lineārās nobīdes paraugu problēmas un risinājumi
  3. Leņķiskā ātruma un lineārā ātruma paraugproblēmas ar risinājumiem
  4. Leņķiskā paātrinājuma un lineārā paātrinājuma paraugproblēmas ar risinājumiem
  5. Vienmērīgu apļveida kustību parauga uzdevumi ar risinājumiem
  6. Centripetāla paātrinājuma parauga uzdevumi ar risinājumiem
  7. Nevienmērīgu apļveida kustību parauga uzdevumi ar risinājumiem

Leave a Comment