Baltimore – Washington D.C. Maglev

The Baltimore–Washington Superconducting Maglev Project is a proposal from the United States cities of Baltimore, Maryland, and Washington, D.C., to build a 39.8-mile (64.1 km) maglev train system between their respective central business districts. It is the first segment of the planned Washington-New York Northeast Maglev project..mw-parser-output .RMbox{box-shadow:0 2px 2px 0 rgba(0,0,0,.14),0 1px 5px 0 rgba(0,0,0,.12),0 3px 1px -2px rgba(0,0,0,.2)}.mw-parser-output .RMinline{float:none;width:100%;margin:0;border:none}.mw-parser-output table.routemap{padding:0;border:0;border-spacing:0;background:transparent;white-space:nowrap;line-height:1.2;margin:auto}.mw-parser-output .RMir{border:0;border-spacing:0;display:table;line-height:0;padding:0!important;margin:0 auto!important}.mw-parser-output .RMir img{height:initial!important;max-width:initial!important}.mw-parser-output table.routemap .RMsi{display:inline;font-size:90%}.mw-parser-output table.routemap .RMl1{padding:0 3px;text-align:left}.mw-parser-output table.routemap .RMr1{padding:0 3px;text-align:right}.mw-parser-output table.routemap .RMl{text-align:right}.mw-parser-output table.routemap .RMr{text-align:left}.mw-parser-output table.routemap .RMl4{padding:0 3px 0 0;text-align:left}.mw-parser-output table.routemap .RMr4{padding:0 0 0 3px;text-align:right}.mw-parser-output table.routemap>tbody>tr{line-height:1}.mw-parser-output table.routemap>tbody>tr>td{padding:0;width:auto;vertical-align:middle;text-align:center}.mw-parser-output .RMir>tbody>tr{display:inline-table}.mw-parser-output .RMir>tbody>tr>td{padding:0;height:20px;min-height:20px}.mw-parser-output .RMir .RMov{position:relative}.mw-parser-output .RMir .RMic{position:absolute;left:0px;top:0px;padding:0}.mw-parser-output .RMir .RMtx{line-height:20px;vertical-align:middle;text-align:center}.mw-parser-output .RMir .RMsp{height:20px;min-height:20px}.mw-parser-output .RMir div>.RMtx{position:absolute}.mw-parser-output .RMir .RMtx>abbr,.mw-parser-output .RMir .RMtx>div{line-height:.975;display:inline-block;vertical-align:middle}.mw-parser-output .RMir .RMf_{height:5px;min-height:5px;width:20px;min-width:20px}.mw-parser-output .RMir .RMfm{height:100%;min-height:100%;width:4px;min-width:4px;margin:0 auto}.mw-parser-output .RMir .RMo{width:2.5px;min-width:2.5px}.mw-parser-output .RMir .RMc{width:5px;min-width:5px}.mw-parser-output .RMir .RMoc{width:7.5px;min-width:7.5px}.mw-parser-output .RMir .RMd{width:10px;min-width:10px}.mw-parser-output .RMir .RMod{width:12.5px;min-width:12.5px}.mw-parser-output .RMir .RMcd{width:15px;min-width:15px}.mw-parser-output .RMir .RMocd{width:17.5px;min-width:17.5px}.mw-parser-output .RMir .RM_{width:20px;min-width:20px}.mw-parser-output .RMir .RM_o{width:22.5px;min-width:22.5px}.mw-parser-output .RMir .RM_c{width:25px;min-width:25px}.mw-parser-output .RMir .RM_oc{width:27.5px;min-width:27.5px}.mw-parser-output .RMir .RM_d{width:30px;min-width:30px}.mw-parser-output .RMir .RM_od{width:32.5px;min-width:32.5px}.mw-parser-output .RMir .RM_cd{width:35px;min-width:35px}.mw-parser-output .RMir .RM_ocd{width:37.5px;min-width:37.5px}.mw-parser-output .RMir .RMb{width:40px;min-width:40px}.mw-parser-output .RMir .RMcb{width:45px;min-width:45px}.mw-parser-output .RMir .RMdb{width:50px;min-width:50px}.mw-parser-output .RMir .RMcdb{width:55px;min-width:55px}.mw-parser-output .RMir .RM_b{width:60px;min-width:60px}.mw-parser-output .RMir .RM_cb{width:65px;min-width:65px}.mw-parser-output .RMir .RM_db{width:70px;min-width:70px}.mw-parser-output .RMir .RM_cdb{width:75px;min-width:75px}.mw-parser-output .RMir .RMs{width:80px;min-width:80px}.mw-parser-output .RMir .RMds{width:90px;min-width:90px}.mw-parser-output .RMir .RM_s{width:100px;min-width:100px}.mw-parser-output .RMir .RM_ds{width:110px;min-width:110px}.mw-parser-output .RMir .RMbs{width:120px;min-width:120px}.mw-parser-output .RMir .RMdbs{width:130px;min-width:130px}.mw-parser-output .RMir .RM_bs{width:140px;min-width:140px}.mw-parser-output .RMir .RM_dbs{width:150px;min-width:150px}.mw-parser-output .RMir .RMw{width:160px;min-width:160px}.mw-parser-output .RMir .RM_w{width:180px;min-width:180px}.mw-parser-output .RMir .RMbw{width:200px;min-width:200px}.mw-parser-output .RMir .RM_bw{width:220px;min-width:220px}.mw-parser-output .RMir .RMsw{width:240px;min-width:240px}.mw-parser-output .RMir .RM_sw{width:260px;min-width:260px}.mw-parser-output .RMir .RMbsw{width:280px;min-width:280px}.mw-parser-output .RMir .RM_bsw{width:300px;min-width:300px} Section 1218 of the 'Transportation Equity Act for the 21st Century' created a National Magnetic Levitation Transportation Technology Deployment Program. The program is administered by the Federal Railroad Administration (FRA), a unit of the U.S. Department of Transportation. The objective of the program is to demonstrate high-speed maglev technology in commercial service through a project of about 40 miles in length, so that it can be considered later in the century for implementation in a longer distance intercity corridor application. Section 1218 envisioned $1 billion in federal funding for a single demonstration system which must be matched by other sources 2 to 1. FRA selected seven projects for further study in May 1999, and they received $55 million in further funding to develop their proposals. Of these seven, Baltimore-Washington and Pittsburgh advanced to next stage as semi-finalists in April 2001. Federal funding of the project development continued through fiscal year 2004. However, due to legislation passed by the State of Maryland in 2004, the Baltimore-Washington project dropped out and did not receive federal funding for fiscal year 2005. Instead, the program funded Pittsburgh and a line between Las Vegas and Anaheim in fiscal year 2005, with all federal funding removed from the program after that year. The American Recovery and Reinvestment Act of 2009 revived federal funding of intercity high-speed rail, particularly in the context of the Las Vegas to Anaheim route. Interest increased for the Baltimore to Washington, D.C., project in 2015 when Maryland Governor Larry Hogan visited Japan to ride an advanced prototype maglev train which traveled at 311 miles per hour (500 kph) and some $28 million of U.S. funding was tapped to study the project.