Ceir Mobility is an early-stage electric motor start-up working on an innovative electric motor, incubated at IIT Patna.
Are you interested in working in an environment that values empowerment, zeal, and challenge?
Do you have a passion for emerging technologies such as electric motors and electro-mobility solutions?
If so, we invite you to join our team and help drive the creation of upcoming Ceir Mobility products."
We believe in breaking the ice with innovation!!
Selected intern's day-to-day responsibilities include:
1. Assisting with the design and execution of social media campaigns
2. Creating weekly and monthly editorial calendars to promote company brands on various social media websites
3. Tracking social media engagement to identify high-performing ideas and campaigns for scalability
4. Performing social media marketing research
5. Assisting with influencer campaign strategy
6. Responding to comments and DMs on social media platforms
7. Brainstorming and research ideas for original content
8. Creating compelling graphics to share across social channels
9. Writing social media captions that speak to the company s target audience
Required: Use of Canva for making the poster for LinkedIn and Instagram
Note:
1. Certificate in association with IIT Patna
2. Letter of recommendation for higher studies
Only those candidates can apply who:
1. are available for the work from home job/internship
2. can start the work from home job/internship between 26th Mar'24 and 30th Apr'24
3. are available for duration of 6 months
4. have relevant skills and interests
* Women wanting to start/restart their career can also apply.
Stipend structure: This is a performance-based internship. In addition to the minimum-assured stipend, you will also be paid a performance-linked incentive (₹ 2000 per post organic marketing).
We are a manufacturing company whose main products are advanced electric motors for different mainstream applications. In addition, our motors are distinguished from other conventional motors by their high power/torque density, low weight, and modular design.
