An electron microscope is operated at 40 kV. Theratio of resolving power of this microscope and acompound microscope which uses yellow light ofwavelength 6 x 10 m, is
![4. An electron microscope is operated 40 KV. The ratio of resolving power of this microscope and a compound microscope which uses yellow light of wavelength 6 x 10-7 m, is (1) 9.78 x 106 (2) 9.78 x 104 (3) 9.78 * 10-4 (4) 9.78 x 10-6 4. An electron microscope is operated 40 KV. The ratio of resolving power of this microscope and a compound microscope which uses yellow light of wavelength 6 x 10-7 m, is (1) 9.78 x 106 (2) 9.78 x 104 (3) 9.78 * 10-4 (4) 9.78 x 10-6](https://toppr-doubts-media.s3.amazonaws.com/images/5399396/bcadf494-de12-4248-9010-94d02121108a.jpg)
4. An electron microscope is operated 40 KV. The ratio of resolving power of this microscope and a compound microscope which uses yellow light of wavelength 6 x 10-7 m, is (1) 9.78 x 106 (2) 9.78 x 104 (3) 9.78 * 10-4 (4) 9.78 x 10-6
The resolving power of an electron microscope is R , when accelerating potential is V .If accelerating potential is increased by 3V then its new resolving power is
![The smallest dimension (resolving power) that can be resolved by an electron microscope is equal... - YouTube The smallest dimension (resolving power) that can be resolved by an electron microscope is equal... - YouTube](https://i.ytimg.com/vi/4wEb4amqnCw/maxresdefault.jpg)
The smallest dimension (resolving power) that can be resolved by an electron microscope is equal... - YouTube
![The resolving power of an electron microscope operated at 16kV is R. The resolving power of the ... - YouTube The resolving power of an electron microscope operated at 16kV is R. The resolving power of the ... - YouTube](https://i.ytimg.com/vi/-331ZH5vNr4/maxresdefault.jpg)