89 + 384 = 473
Repeatedly divide the number by 8 until the number is zero. Take the remainders from each division (the remainders will always be in the range 0 to 7 inclusive). The first division finds the lowest-order digit, the last finds the highest-order digit. Example: Decimal value: 421 421 / 8 = 52 r 5 52 / 8 = 6 r 4 6 / 8 = 0 r 6 The remainders are 6, 4 and 5, so 421 decimal is 645 octal. To convert from octal to decimal, multiply each octal digit by 8^n, where n is the zero-based order of the digit (0 being the lowest order), then sum the products. Example: Octal number: 645 5 * (8^0) = 5 * 1 = 5 4 * (8^1) = 4 * 8 = 32 6 * (8^2) = 6 * 64 = 384 384 + 32 + 5 = 421 Note that n^0 = 1 for all n>=0.
Just go to PULCHOWK CAMPUS after your Class 12 results are published. You will get entrance application form if you have fulfilled requirements. Then once you give entrance exam there, it will all depend on how you perform in the entrance exam. Each year more than 10000 applicants compete in the entrance examination for 384 seats. Requirements to apply: - Should have passed +2, I.Sc or Equivalent to that with at least 50% aggregate marks and should have studied at least 200 marks of Mathematics.
DatesCool New Features1G70's to 80'sWireless phones (cellular) are introduced, primarily for voice only.2G90's to 2000Increased performance achieved by allowing multiple users on a single channel. More and more cellular phones are used for data as well as voice.2.5G2001-2004The Internet turns the focus towards data transmission. Enhanced multimedia and streaming video are now possible. Phones support limited web browsing.3G2004-2005Enhanced multimedia and streaming video capabilities are increased. Standards are created to allow universal access and portability across different device types (Telephones, PDA's, etc.)4G2006+Speeds reach up to 40 Mbps. Enhanced multimedia, streaming video, access and portability are increased still further. Devices are equipped for world-wide roaming.Technology1GAnalogCMRTAMPS2GDigital Circuit SwitchedD-AMPSGSMCDMA2.5GDigital Packet SwitchedGPRSEDGE3GDigital Packet SwitchedUMTSW-CDMACDMA20004GDigital Broadband802.11Data Rate1G9.6 Kbps to 14.4 Kbps2GD-AMPS9.6 Kbps to 14.4 KbpsGSM9.6 Kbps to 14.4 KbpsIS95A9.6 Kbps to 14.4 KbpsIS95B115 Kbps2.5G56 Kbps to 144 Kbps3GUMTS2+ Mbps, up to 384 KbpsWCDMA384 Kbps (wide area access), 2 Mbps (local area access)CDMA2000614 Kbps4G20-40 MbpsFrequencyCarrier1G800 MHz30 kHz2GD-AMPS800 MHz or 1.9 GHz30 kHzGSM800 MHz or 1.9 GHz200 kHzIS95A/B800 MHz or 1.9 GHz1.25 MHz2.5G800 MHz or 1.9 GHz200 kHz3GUMTS2 GHz5 MHzWCDMA2 GHz5 MHzCDMA20002 GHz1.25 MHz / 3.75 MHz4GIn DevelopmentIn DevelopmentPrimary Countries1GWorldwide2GD-AMPSUSAGSMEuropeIS95A/BUSA2.5GEurope, Asia, USA3GEurope, Japan, USA4GIn Development
Answer:You asked: What are the differences between mrp1 and mrp2My answer is that I don't know. Kidding aside, your question should have read: What are the differences between mp1 and mp2?MP1 is an MPEG-1 Layer 1 Audio File.MP2 is an MPEG Layer II Compressed Audio File.MP3 is a commonly used universal Audio File.The MP1 audio file format used MPEG Layer 1 compression; that supported data rates of 384 kbps and was used primarily by Philips DCC Digital Compact cassettes; which has been, for the most part, replaced by the newer MP2 and MP3 formats.The MP2 audio file format used MPEG-1 Layer II compression to reduce the file size and for the most part, has mainly been replaced by the ubiquitous MP3 format. However; MP2 is still used for digital radio and digital television broadcasts.The quality of an MP3 file depends largely on the bit rate used for compression; common bit rates are 128 kbps, 160 kbps, and 192 kbps; higher bit rates result in higher quality files that also require more disk space. MP3 files are supported by most portable music players such as the Apple iPod; Microsoft Zune; and can also be played on the Amazon Kindle. Furthermore, MP3 audio music files can be played on virtually all home based sound systems.- THIS FOOL IS WRONG...The differences between MRP 1 and MRP 2 is the fact that MRP2 considers capacity calculations
128
384
384
64x6=384
160% of 384 is 614.4
384 is an integer so there is no sensible way of representing it as a mixed number.
64
16 384
192
384
54.8571
# 384