Physics equations/07-Work and Energy/Q:cart1/testbank

===2===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 7.30 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.59 m
+ b) 2.72 m
- c) 2.85 m
- d) 3.00 m
- e) 3.15 m
===3===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.60 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.10 m
- b) 3.26 m
- c) 3.42 m
- d) 3.59 m
+ e) 3.77 m
===4===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 6.80 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.25 m
+ b) 2.36 m
- c) 2.48 m
- d) 2.60 m
- e) 2.73 m
===5===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 6.10 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 1.90 m
- b) 1.99 m
- c) 2.09 m
- d) 2.20 m
- e) 2.31 m
===6===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 9.90 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 4.11 m
- b) 4.32 m
- c) 4.54 m
- d) 4.76 m
+ e) 5.00 m
===7===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 7.70 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.88 m
+ b) 3.02 m
- c) 3.18 m
- d) 3.34 m
- e) 3.50 m
===8===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.20 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.82 m
- b) 2.96 m
- c) 3.11 m
- d) 3.27 m
+ e) 3.43 m
===9===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.50 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 3.69 m
- b) 3.87 m
- c) 4.06 m
- d) 4.27 m
- e) 4.48 m
===10===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 7.10 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.22 m
- b) 2.33 m
- c) 2.45 m
+ d) 2.57 m
- e) 2.70 m
===11===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 6.50 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.77 m
- b) 1.86 m
- c) 1.96 m
- d) 2.05 m
+ e) 2.16 m
===12===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.10 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.75 m
- b) 2.89 m
- c) 3.04 m
- d) 3.19 m
+ e) 3.35 m
===13===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 7.00 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.38 m
+ b) 2.50 m
- c) 2.63 m
- d) 2.76 m
- e) 2.89 m
===14===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 9.40 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 4.51 m
- b) 4.73 m
- c) 4.97 m
- d) 5.22 m
- e) 5.48 m
===15===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 5.60 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.32 m
- b) 1.38 m
- c) 1.45 m
- d) 1.52 m
+ e) 1.60 m
===16===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.50 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.51 m
+ b) 3.69 m
- c) 3.87 m
- d) 4.06 m
- e) 4.27 m
===17===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 9.10 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.48 m
- b) 3.65 m
- c) 3.83 m
- d) 4.02 m
+ e) 4.22 m
===18===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 9.50 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.98 m
- b) 4.18 m
- c) 4.39 m
+ d) 4.60 m
- e) 4.83 m
===19===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 8.10 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 3.35 m
- b) 3.51 m
- c) 3.69 m
- d) 3.88 m
- e) 4.07 m
===20===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 9.50 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.98 m
- b) 4.18 m
- c) 4.39 m
+ d) 4.60 m
- e) 4.83 m
===21===
{<!--a07energy_cart1_1-->If the initial velocity after leaving the spring is 6.20 m/s,  how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.61 m
- b) 1.69 m
- c) 1.78 m
- d) 1.87 m
+ e) 1.96 m

===2===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 8506N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 8.86E+02  m
- b) 9.30E+02  m
+ c) 9.76E+02  m
- d) 1.03E+03  m
- e) 1.08E+03  m
===3===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 5853N/m.  If the initial compression of the spring is 2.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.28E+02  m
- b) 3.44E+02  m
- c) 3.61E+02  m
- d) 3.79E+02  m
+ e) 3.98E+02  m
===4===
{<!--a07energy_cart1_2-->The mass of the cart is 2.0kg,   and the spring constant is 6805N/m.  If the initial compression of the spring is 2.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 6.94E+02  m
- b) 7.29E+02  m
- c) 7.66E+02  m
- d) 8.04E+02  m
- e) 8.44E+02  m
===5===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 9164N/m.  If the initial compression of the spring is 5.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.37E+03  m
- b) 3.53E+03  m
- c) 3.71E+03  m
+ d) 3.90E+03  m
- e) 4.09E+03  m
===6===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 6490N/m.  If the initial compression of the spring is 4.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.45E+03  m
- b) 1.53E+03  m
- c) 1.60E+03  m
- d) 1.68E+03  m
+ e) 1.77E+03  m
===7===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 5407N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 6.21E+02  m
- b) 6.52E+02  m
- c) 6.84E+02  m
- d) 7.19E+02  m
- e) 7.54E+02  m
===8===
{<!--a07energy_cart1_2-->The mass of the cart is 2.0kg,   and the spring constant is 9419N/m.  If the initial compression of the spring is 1.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 2.40E+02  m
- b) 2.52E+02  m
- c) 2.65E+02  m
- d) 2.78E+02  m
- e) 2.92E+02  m
===9===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 6573N/m.  If the initial compression of the spring is 2.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.86E+02  m
- b) 4.06E+02  m
- c) 4.26E+02  m
+ d) 4.47E+02  m
- e) 4.70E+02  m
===10===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 8401N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 8.33E+02  m
- b) 8.75E+02  m
- c) 9.18E+02  m
+ d) 9.64E+02  m
- e) 1.01E+03  m
===11===
{<!--a07energy_cart1_2-->The mass of the cart is 2.0kg,   and the spring constant is 8086N/m.  If the initial compression of the spring is 4.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.85E+03  m
- b) 2.99E+03  m
- c) 3.14E+03  m
+ d) 3.30E+03  m
- e) 3.47E+03  m
===12===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 6822N/m.  If the initial compression of the spring is 1.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.00E+02  m
- b) 1.05E+02  m
- c) 1.10E+02  m
+ d) 1.16E+02  m
- e) 1.22E+02  m
===13===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 6773N/m.  If the initial compression of the spring is 4.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.76E+03  m
+ b) 1.84E+03  m
- c) 1.94E+03  m
- d) 2.03E+03  m
- e) 2.13E+03  m
===14===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 9082N/m.  If the initial compression of the spring is 5.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.76E+03  m
+ b) 2.90E+03  m
- c) 3.04E+03  m
- d) 3.19E+03  m
- e) 3.35E+03  m
===15===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 9306N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.29E+03  m
- b) 1.36E+03  m
+ c) 1.42E+03  m
- d) 1.50E+03  m
- e) 1.57E+03  m
===16===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 9804N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 9.72E+02  m
- b) 1.02E+03  m
- c) 1.07E+03  m
+ d) 1.13E+03  m
- e) 1.18E+03  m
===17===
{<!--a07energy_cart1_2-->The mass of the cart is 3.0kg,   and the spring constant is 9635N/m.  If the initial compression of the spring is 5.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 4.10E+03  m
- b) 4.30E+03  m
- c) 4.52E+03  m
- d) 4.74E+03  m
- e) 4.98E+03  m
===18===
{<!--a07energy_cart1_2-->The mass of the cart is 2.0kg,   and the spring constant is 6218N/m.  If the initial compression of the spring is 4.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 2.54E+03  m
- b) 2.66E+03  m
- c) 2.80E+03  m
- d) 2.94E+03  m
- e) 3.08E+03  m
===19===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 8548N/m.  If the initial compression of the spring is 1.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 8.97E+01  m
- b) 9.42E+01  m
- c) 9.89E+01  m
- d) 1.04E+02  m
+ e) 1.09E+02  m
===20===
{<!--a07energy_cart1_2-->The mass of the cart is 4.0kg,   and the spring constant is 9808N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.02E+03  m
- b) 1.07E+03  m
+ c) 1.13E+03  m
- d) 1.18E+03  m
- e) 1.24E+03  m
===21===
{<!--a07energy_cart1_2-->The mass of the cart is 2.0kg,   and the spring constant is 7568N/m.  If the initial compression of the spring is 3.00m, how high does it reach before coming to rest?[[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 1.74E+03  m
- b) 1.82E+03  m
- c) 1.92E+03  m
- d) 2.01E+03  m
- e) 2.11E+03  m

===2===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.8m/s,  when the cart was situated at a height of 2.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.33 m
- b) 2.45 m
- c) 2.57 m
+ d) 2.70 m
- e) 2.84 m
===3===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.6m/s,  when the cart was situated at a height of 3.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 3.70 m
- b) 3.89 m
- c) 4.08 m
- d) 4.28 m
- e) 4.50 m
===4===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.9m/s,  when the cart was situated at a height of 3.5m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 3.50 m
- b) 3.68 m
- c) 3.86 m
- d) 4.05 m
- e) 4.25 m
===5===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.7m/s,  when the cart was situated at a height of 3.8m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.45 m
- b) 3.62 m
+ c) 3.80 m
- d) 3.99 m
- e) 4.19 m
===6===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.0m/s,  when the cart was situated at a height of 2.9m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.51 m
- b) 2.63 m
- c) 2.76 m
+ d) 2.90 m
- e) 3.04 m
===7===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.8m/s,  when the cart was situated at a height of 2.2m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.81 m
- b) 1.90 m
- c) 2.00 m
- d) 2.10 m
+ e) 2.20 m
===8===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.9m/s,  when the cart was situated at a height of 3.6m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.96 m
- b) 3.11 m
- c) 3.27 m
- d) 3.43 m
+ e) 3.60 m
===9===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.1m/s,  when the cart was situated at a height of 2.4m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.18 m
- b) 2.29 m
+ c) 2.40 m
- d) 2.52 m
- e) 2.65 m
===10===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.5m/s,  when the cart was situated at a height of 3.4m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.80 m
- b) 2.94 m
- c) 3.08 m
- d) 3.24 m
+ e) 3.40 m
===11===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.6m/s,  when the cart was situated at a height of 3.3m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.14 m
+ b) 3.30 m
- c) 3.46 m
- d) 3.64 m
- e) 3.82 m
===12===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.9m/s,  when the cart was situated at a height of 3.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.52 m
+ b) 3.70 m
- c) 3.89 m
- d) 4.08 m
- e) 4.28 m
===13===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.5m/s,  when the cart was situated at a height of 3.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.36 m
- b) 3.52 m
+ c) 3.70 m
- d) 3.89 m
- e) 4.08 m
===14===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.6m/s,  when the cart was situated at a height of 2.2m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 1.90 m
- b) 2.00 m
- c) 2.10 m
+ d) 2.20 m
- e) 2.31 m
===15===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.9m/s,  when the cart was situated at a height of 2.8m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.54 m
- b) 2.67 m
+ c) 2.80 m
- d) 2.94 m
- e) 3.09 m
===16===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.2m/s,  when the cart was situated at a height of 2.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.45 m
- b) 2.57 m
+ c) 2.70 m
- d) 2.84 m
- e) 2.98 m
===17===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 1.4m/s,  when the cart was situated at a height of 2.5m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.38 m
+ b) 2.50 m
- c) 2.63 m
- d) 2.76 m
- e) 2.89 m
===18===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.5m/s,  when the cart was situated at a height of 3.2m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 2.76 m
- b) 2.90 m
- c) 3.05 m
+ d) 3.20 m
- e) 3.36 m
===19===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.6m/s,  when the cart was situated at a height of 3.7m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 3.70 m
- b) 3.89 m
- c) 4.08 m
- d) 4.28 m
- e) 4.50 m
===20===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.4m/s,  when the cart was situated at a height of 3.5m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
- a) 3.02 m
- b) 3.17 m
- c) 3.33 m
+ d) 3.50 m
- e) 3.68 m
===21===
{<!--D040a07energy_cart1_3-->What is the highest point the cart reaches if the speed was 2.3m/s,  when the cart was situated at a height of 2.2m?,  [[File:Roller coaster energy conservation.jpg|right|280px]]}
+ a) 2.20 m
- b) 2.31 m
- c) 2.43 m
- d) 2.55 m
- e) 2.67 m