We believe in empowering every single student who couldn’t dream of a good career in engineering and medical field earlier. PW strives to make the learning experience comprehensive and accessible for students of all sections of society. We successfully provide students with intensive courses by India's top faculties and personal mentors. Physics Wallah also caters to over 3.5 million registered students and over 78 lakh+ Youtube subscribers with 4.8 rating on its app. We also provide extensive NCERT solutions, sample papers, NEET, JEE Mains, BITSAT previous year papers, which makes us a one-stop solution for all resources. Physics Wallah is India's top online ed-tech platform that provides affordable and comprehensive learning experience to students of classes 6 to 12 and those preparing for JEE and NEET exams. When seen through a mirror, time will be Ignore the labels on the clock. What shows the time at 3 : 25 when seen through a mirror the time will appear to be?Īns. 2:30 will be the mirror image of the clock showing the time 10:30. What will be the mirror image of 10 : 30?Īns. The rule involved in this question is, The concept of reflection and how the distance factor affects the image formed in a plane mirror.Ī plane mirror is kept on the right of the clock, with its plane perpendicular to the face of the watch. The attached image of the 7:35 time will look like and what time it will show. What is the mirror image of the time is 7 : 35?Īns. Hence, the mirror image time will be 7'O clock. And if it is a 24 hr clock, remove the given time from 23:60 hrs. For every mirror image based on a clock, If it is a 12 hours clock, then subtract the given time from 11:60 hrs. What is a mirror image of a 12 o' clock?Īns. Given time in the clock in mirror = 12 : 40. What is the mirror image of time 12 : 40?Īns. What is a mirror image of the clock of 10 hours 35 minutes? The minute hand gains 5 minutes in 5 x 12/11 minutes i.e. At 1 o'clock, the minute hand is 5 minutes behind the hour hand. Between 1 o'clock and 2 o'clock, find the time when the minute hand and an hour hand coincide. In nest 25 minutes hour hand has moved 25 × 1/2 i.e. At 2:25, the hands of a clock are shown in the diagram. Find the angle between the hour hand and the minute hand of a clock when the time is 2:25 So total number of times the hands are at right angles = 3 + 3 + (2 x 4) = 14. Between 4 and s8 o'clock, the hands are at right angles.
Between 2 and 4 o'clock 8 and 10 o'clock, the hands are at right thrice in each case. Between 2 o'clock to 10 o'clock, how many times the hands of a clock are at right angle? a, Hour hand is multiplied by 30.b, then a - b is the angle required. Minutes of the given time are multiplied by 5x 1/2. If one angle is known, other can be obtained by subtracting from 360 0. Negative angle: It is obtained by moving from Minute hand to Hour hand.īoth types of angles are 360° in total. Positive angle: It is obtained by moving from Hour hand to Minute Hand. It moves 6° in One Minute Hour hand moves 30° in 60 minutes Minute hand moves 30° in 5 minutes & 360° in 1 hour i.e. The time in the clock is 12 : 35, then its mirror image will be.The time in the clock is 4 : 46, what is the mirror image ?.If the time is between 11 to 1 then to find the mirror image, time is subtracted by 23 : 60.
The device is AEC-Q100 Qualified.If the time is between 1 to 11 o'clock then to find the mirror image, time is subtracted by 11 : 60. It meets the timing requirements of car infotainment systems, medical equipment, multi-function printers, media broadcast servers, test equipment, camera systems, aerospace and defense, and many more applications. This is precisely why we designed the CY274x High Performance Clock Generator. Sharing high-resolution media content requires faster data transfer standards, and devices that can support multiple data standards, each with specific timing requirements. Target applications for these devices include automotive, industrial, consumer, and networking.Ĭonsumer devices are becoming more feature-rich and connected. We have commercial, industrial and automotive-grade products.Ĭlock generators can be broadly classified into two categories: EMI Reduction (Spread-Spectrum capability), and Non-EMI Reduction. They support a host of value-added features such as VCXO, Spread Spectrum and Output Phase Alignment, along with supporting reference clocks for popular interface standards such as PCIe 1.0/2.0/3.0, 10 GbE, SATA 1.0/2.0 and USB 1.0/2.0/3.0.
Infineon has a broad portfolio of clock generators with frequency support of 700 MHz and RMS phase jitter of less than 0.7 ps.
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