![SY/ A time-varying magnetic field is directed into page as shown in figure and it is decreasing constant rate of 150 T/s. The reading of ammeter 1022 X x X 10 cm SY/ A time-varying magnetic field is directed into page as shown in figure and it is decreasing constant rate of 150 T/s. The reading of ammeter 1022 X x X 10 cm](https://toppr-doubts-media.s3.amazonaws.com/images/8653004/22d8ecdd-843b-4aaa-90d0-43a71170662f.jpg)
SY/ A time-varying magnetic field is directed into page as shown in figure and it is decreasing constant rate of 150 T/s. The reading of ammeter 1022 X x X 10 cm
Why is the constant in the formula for calculating magnetic field intensity different for straight conductors and different for circular coil ? What is the derivation of the constant ?
![A time varying magnetic field `B=krt` (where k is a constant r is the radial distance from centre O) - YouTube A time varying magnetic field `B=krt` (where k is a constant r is the radial distance from centre O) - YouTube](https://i.ytimg.com/vi/8n_WD0pfv98/maxresdefault.jpg)
A time varying magnetic field `B=krt` (where k is a constant r is the radial distance from centre O) - YouTube
![There is a constant homogeneous electric field of 100 Vm 1 within the region x =0 and x =0.167 m pointing in the positive x direction. There is a constant homogeneous magnetic There is a constant homogeneous electric field of 100 Vm 1 within the region x =0 and x =0.167 m pointing in the positive x direction. There is a constant homogeneous magnetic](https://search-static.byjusweb.com/question-images/byjus/ckeditor_assets/pictures/1035919/original_25.png)
There is a constant homogeneous electric field of 100 Vm 1 within the region x =0 and x =0.167 m pointing in the positive x direction. There is a constant homogeneous magnetic
![Does a constant current produce constant magnetic field and varying current produce varying magnetic field? - Quora Does a constant current produce constant magnetic field and varying current produce varying magnetic field? - Quora](https://qph.cf2.quoracdn.net/main-qimg-f85ca2af7c1d8ee627a0e97619909b73.webp)
Does a constant current produce constant magnetic field and varying current produce varying magnetic field? - Quora
Constant magnetic field. (a) Density distribution in the system at time... | Download Scientific Diagram
![A uniform magnetic field 'B' exists in a cylindrical region shown by cross in fig. The magnetic field now increases a constant rate dB. Consider a circle of radius 'r' coaxial with A uniform magnetic field 'B' exists in a cylindrical region shown by cross in fig. The magnetic field now increases a constant rate dB. Consider a circle of radius 'r' coaxial with](https://toppr-doubts-media.s3.amazonaws.com/images/4261969/cc226af7-0a09-4b2c-a9bb-5f2d86294cc9.jpg)
A uniform magnetic field 'B' exists in a cylindrical region shown by cross in fig. The magnetic field now increases a constant rate dB. Consider a circle of radius 'r' coaxial with
![A timevarying magnetic field is directed into the page as shown in figure and it is decreasing at constant rate of 150TsThe reading of ammeter is A timevarying magnetic field is directed into the page as shown in figure and it is decreasing at constant rate of 150TsThe reading of ammeter is](https://sss.embibe.com/cdn-cgi/image/q=75,w=262.5,f=auto,fit=scale-down/https://sss.embibe.com/content-grail/preprod/e9d45ba8-a41a-48e7-8028-679a6fc1fe00.png)
A timevarying magnetic field is directed into the page as shown in figure and it is decreasing at constant rate of 150TsThe reading of ammeter is
![Influence of the Intensity of a Constant Magnetic Field on the Process of Phase Formation in an Aged Aluminum Alloy Al–Si–Cu–Fe | Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques Influence of the Intensity of a Constant Magnetic Field on the Process of Phase Formation in an Aged Aluminum Alloy Al–Si–Cu–Fe | Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques](https://media.springernature.com/lw685/springer-static/image/art%3A10.1134%2FS1027451022010281/MediaObjects/11700_2022_8787_Fig2_HTML.gif)
Influence of the Intensity of a Constant Magnetic Field on the Process of Phase Formation in an Aged Aluminum Alloy Al–Si–Cu–Fe | Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques
![electromagnetism - If a constant current can create constant magnetic field , why do we need changing magnetic field to induce current? - Physics Stack Exchange electromagnetism - If a constant current can create constant magnetic field , why do we need changing magnetic field to induce current? - Physics Stack Exchange](https://i.stack.imgur.com/BCDB4.png)
electromagnetism - If a constant current can create constant magnetic field , why do we need changing magnetic field to induce current? - Physics Stack Exchange
![A Constant Magnetic Field Of 1T Is Applied In The x Greater Than 0 Region. A Metallic.... #jeemains - YouTube A Constant Magnetic Field Of 1T Is Applied In The x Greater Than 0 Region. A Metallic.... #jeemains - YouTube](https://i.ytimg.com/vi/aPYD481KODw/maxresdefault.jpg)
A Constant Magnetic Field Of 1T Is Applied In The x Greater Than 0 Region. A Metallic.... #jeemains - YouTube
![A uniform and constant magnetic field coming out of the plane of the paper exist in rectangular na shown in the figure Aconducting rod Pois rotated about with a uniform angular speed A uniform and constant magnetic field coming out of the plane of the paper exist in rectangular na shown in the figure Aconducting rod Pois rotated about with a uniform angular speed](https://toppr-doubts-media.s3.amazonaws.com/images/683762/8682b302-feaf-47a3-aed6-b52349b0cfe5.jpg)
A uniform and constant magnetic field coming out of the plane of the paper exist in rectangular na shown in the figure Aconducting rod Pois rotated about with a uniform angular speed
![Lecture 3 Last lecture: Magnetic field by constant current r I B = 2r2r II = r 0, r: relative magnetic permeability r =1 for most. - ppt download Lecture 3 Last lecture: Magnetic field by constant current r I B = 2r2r II = r 0, r: relative magnetic permeability r =1 for most. - ppt download](https://slideplayer.com/5134097/16/images/slide_1.jpg)