a:6:{i:0;s:6794:"				<div class="h1"><h1>Shimla Short Escape Tour</h1></div>
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						<td class="b p5px w125px vat">Duration </td>
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						2 Nights / 3 Days 
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						<td class="b p5px w125px vat">Destination Covered </td>
						<td class="p5px pl0px vat">New Delhi, Kufri, Shimla</td>
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			            <p class="p7px b pl10px xlarge">Tour Itinerary</p>
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								<p class="b large mb5px"><b class="dif">Day 1:</b> Delhi - Shimla
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								<p class="aj">Your lovely trip begins right from the time you climb up the hills from either Delhi or Chandigarh. The winding roads and the greenery on the way makes you anticipate for more. The Mall and the Ridge road are the main points; on the ridge road is an old church, Christ Church and its magnificent presence flatters the location even more. After reaching Shimla, spend the day at leisure and comfort of the hotel.</p>
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								<p class="b large mb5px"><b class="dif">Day 2:</b> Shimla - Kufri - Shimla
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								<p class="aj">On the 2nd day, leave for excursion around Shimla. Right after the breakfast you will leave for Kufri, Just 14 km from Shimla. Visit here Indira Bungalow and the Himalayan Zoo. You will also enjoy pony rides to Mashu Peak. In the afternoon, return to Shimla and visit architectural site Viceregal lodge, which was designed by British architect. The lodge was the residence of the British viceroy of India. Later you can spend some time at the mall road and visit some most famous sites like second oldest church of north Indian Christ Church, and Scandal Point, Gaiety Theatre and many more. In the evening, return back to the hotel for a cozy and comfortable stay.</p>
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								<p class="b large mb5px"><b class="dif">Day 3:</b> Shimla - Delhi
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								<p class="aj">After the breakfast, it is time to return. Now drive back to delhi with the fully content of the trip.</p>
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												 <p class="headHr p7px b pl10px xlarge">Tour Detail</p>
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						<p class="large b mb5px dif">Inclusions :</p>
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															<li>Hotel</li>
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						<p class="large b mb5px dif">Terms &amp; Conditions :</p>* Some Advance Percentage of total booking amount 
* Airfare/Transport fare to be paid full at one time in advance.~^#^~* Upon cancellation, refund will be made after deducting the Retention Amount. 
* Retention Amount varies as per the number of days left before your package start date. ~^#^~												</div>
												
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