![Metric System Conversion table 1,000,000,000 = 1 Gm (Gigameter) 1,000,000m = 1Mm (Megameter) 1,000m = 1Km (Kilometer) 1m = 1m meter 1m = 10dm (decimeter) - ppt download Metric System Conversion table 1,000,000,000 = 1 Gm (Gigameter) 1,000,000m = 1Mm (Megameter) 1,000m = 1Km (Kilometer) 1m = 1m meter 1m = 10dm (decimeter) - ppt download](https://images.slideplayer.com/26/8440811/slides/slide_11.jpg)
Metric System Conversion table 1,000,000,000 = 1 Gm (Gigameter) 1,000,000m = 1Mm (Megameter) 1,000m = 1Km (Kilometer) 1m = 1m meter 1m = 10dm (decimeter) - ppt download
![When a conductance cell was filled with 0.0025 M solution of K2SO4 , its resistance was 326 ohm. Length of cell = 100cm and cross - sectional area 2.14 × 10^-4 cm^2 . The specific resistance of K2SO4 is: When a conductance cell was filled with 0.0025 M solution of K2SO4 , its resistance was 326 ohm. Length of cell = 100cm and cross - sectional area 2.14 × 10^-4 cm^2 . The specific resistance of K2SO4 is:](https://dwes9vv9u0550.cloudfront.net/images/7260540/8470597e-f9b6-4f44-a7cc-d67144288d59.jpg)
When a conductance cell was filled with 0.0025 M solution of K2SO4 , its resistance was 326 ohm. Length of cell = 100cm and cross - sectional area 2.14 × 10^-4 cm^2 . The specific resistance of K2SO4 is:
![Find the power of a convex lens which forms a real, and inverted image of magnification –1 of an object placed at a distance of 20 cm from its optical centre. Find the power of a convex lens which forms a real, and inverted image of magnification –1 of an object placed at a distance of 20 cm from its optical centre.](https://api.flasheducation.co.in/media/images/2020/09/10/image_EU3ZFXp.png)
Find the power of a convex lens which forms a real, and inverted image of magnification –1 of an object placed at a distance of 20 cm from its optical centre.
50. A mirror of radius of curvature 20cm and an object which is placed at distance 15cm both are moving with velocity 1m/s and 10m/s as shown in the figure. Find velocity
Torque and Angular Momentum) 10, An angular impulse of 20 Nms is applied to a hollow cylinder of mass 2 kg and radius 20 cm. The change in its angular speed is (
![Figure 10 - 46 shows particles 1 and 2, each of mass m, fixed to the ends of a rigid massless rod of length L1 + L2 , with L1 = 20 Figure 10 - 46 shows particles 1 and 2, each of mass m, fixed to the ends of a rigid massless rod of length L1 + L2 , with L1 = 20](https://haygot.s3.amazonaws.com/questions/1750847_1766298_ans_8392f76f4eaf45a785c582ea49d2140a.jpg)
Figure 10 - 46 shows particles 1 and 2, each of mass m, fixed to the ends of a rigid massless rod of length L1 + L2 , with L1 = 20
![A uniform rod of length 200cm and mass 500g is balanced on a wedge placed at 40cm mark: Torque - YouTube A uniform rod of length 200cm and mass 500g is balanced on a wedge placed at 40cm mark: Torque - YouTube](https://i.ytimg.com/vi/whqjPr0nnMA/sddefault.jpg)