Roper Mountain Science Center [sciencetechnology-center.blogspot.com]
Roper Mountain Science Center provides science education programs for area school students, as well as programs for the general public. The center, which opened in 1985, is located on 62 hilltop acres just east of Greenville. The facility is operated by the School District of Greenville County and is a collaboration between public and private resources. Roper Mountain Science Center provides fun educational opportunities for more than 120,000 students each year from Greenville County and other districts.
Roper Mountain is different from most science centers. It is part school, part museum. The facilities include science classrooms and labs, a planetarium, an observatory, an amphitheater, a nature trail, and the Living History Farm. Programs are offered in astronomy, weather, health, physical science, and natural and earth science. The grounds include a 1½ mile nature trail, a butterfly garden, and an arboretum. There are vegetable and kitchen gardens a t the Living History Farm. The water lily pond is an excellent place to observe turtles, fish, and ducks. The grounds are especially beautiful in the spring and fall.
Every Friday evening Roper Mountain Science Center offers special programs for the general public. Friday "Starry Nights" programs include planetarium shows in the Hooper Planetarium, the largest in South Carolina. Guests may observe stars and planets through the telescope in the observatory. Special activities are also scheduled for the 2nd Saturday of each month. The nature trail, butterfly garden, and arboretum are open to the public any time the main gates are open, Monday-Friday from 8:30am -5pm. A picnic area is available to the public, unless it has been reserved by a school group.
More than 80,000 visitors come to Roper Mountain Science Center during the holiday season to enjoy the annual Roper Mountain Holiday Lights. The spectacular light display contains nearly 1 million lights a nd may be viewed from your own vehicle or from a horse-drawn carriage. The Winter Wonderland is the place to visit with Santa, roast marshmallows, and do some holiday shopping. The light displays are illuminated each night from 6-10pm from Thanksgiving through December 30. Proceeds from the light show raise money for children's charities and educational programs in the Upstate.
Although school programs are the main focus of the science center, they do welcome the public to visit during the special Friday and Saturday events, or just enjoy the extensive grounds. The center strives to encourage people of all ages to explore and investigate the world of science.
Recommend Roper Mountain Science Center IssuesQuestion by aneb2u@sbcglobal.net: How to Make a rainbow in a bottle science experiment? My daughter needs extra credit in science and is looking how to make a rainbow in a bottle. Best answer for How to Make a rainbow in a bottle science experiment?:
Answer by lavenderbluememories
Try this site. I just looked at it and it looks pretty neat. Going to bookmark it for my grandchildren... Rainbow in the bottle? - All Science Fair Projects You can make a rainbow in a bottle. Although visual effects were used to enhance the rain bow, you can create it!! I will post that thread so you can learn ... classroom.all-science-fair-projects.com/ forum/showthread.php?t=1072 - 81k - Cached - Similar pages 21: Rainbow in a Bottle With just the bottom of a clear 2-liter bottle as a containter, it is possible to show that water is capable of separating white light (from a flashlight, for example) into its full spectrum (red, orange, yellow, green, blue, indigo, violet or ROYGBIV, for short). Adding a mirror makes it possible to make a bright rainbow in reflection-almost** like the real thing-by placing a small mirror at an angle into the container and setting it in a sunny window so that sunlight strikes the mirror. A rainbow (**shape is different) appears above the mirror and can be projected on a piece of white paper or a white wall. (This can also be done with a flashlight, although the effect is much less dramatic.) Materials: Bottom of clear 2-liter bottle (cut off about 20 cm. from the bottom), small mirror (edges taped or enclosed), water, white paper or poster board; bright flashlight; small containers (foam, paper, etc.) to hold water, plastic droppers, waxed paper. Safety: handle glass mirrors carefully: do not use any with cracks or sharp edges Procedure: 1. (To show that water can separate white light into colors) Fill bottom of 2-liter bottle almost full of water. One person should shine the flashlight at edge and adjust angle while another person hold a piece of white paper to act as a screen to observe the "rainbow". Keep adjusting to see the widest strip with all the colors. 2. Place a mirror in the container of water. Adjust mirror angle and container position in sunny window until sunlight is on the mirror and rainbow is projected upward. (Although it does not work as well, the effect can also be seen with a bright flashlight. If you need to use the flashlight method, do it in the darkest place available or it may be impossible to see the colors.) Observe colors-order and intensity-as well as shape of "rainbow". In what ways does this differ from a rainbow as seen in the sky? Note that this rainbow is in front of the reflector (mirror) and is being projected back towards the Sun. (In a sky rainbow you must stand with your back to the Sun to see the rainbow also.) Perhaps in a sky rainbow, something is reflecting the light back to you as well as splitting it into colors. What could that something be? 2. Can water reflect light? To see that it can, put some water in a bowl and look at it. Can you see your reflection? Can just a tiny drop of water reflect? (Drop water on waxed paper and look for reflections of overhead lights, etc.) Wisconsin Standards: Physical Science: D.4.8 Observe light http://www.ripon.edu/faculty/nortonm/dailyscience.html
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