The active element of a certain laser is made of a glass rod 28.0 cm long and 1.30 cm in diameter. Assume the average coefficient of linear expansion of the glass is equal to 9.00 x 10-6 (°C)-1. The temperature of the rod increases by 70.0°C.
(a) What is the increase in its length?
(b) What is the increase in its diameter?
(c) What is the increase in its volume?
The active element of a certain laser is made of a glass rod 28.0 cm long and 1.30 cm in diameter
The active element of a certain laser is made of a glass rod 33.0 cm long and 1.30 cm in diameter. Assume the average coefficient of linear expansion of the glass is equal to 9.00 10-6 (°C)−1. The temperature of the rod increases by 70.0°C. (a) What is the increase in its length?(b) What is the increase in its diameter? cm (c) What is the increase in its volume? cm3
The active element of a certain laser is made of a glass rod 35.0 cm long and 1.70 cm in diameter. Assume the average coefficient of linear expansion of the glass is equal to 9.00 x 10-5 (°C)-1. The temperature of the rod increases by 62.0°c. (a) What is the increase in its length? cm (b) What is the increase in its diameter? cm (c) What is the increase in its volume? cm3
The active element of a certain laser is an ordinary glass rod 19.3 cm long and 1.15 cm in diameter. If the temperature of the rod increases by 71.9°C, calculate its increase in length. (Use 9.0×10-6 °C-1 for the coefficient of linear expansion for glass. Use this value to find the coefficient of volume expansion in the later parts of the problem.) Tries 0/10 Calculate its increase in diameter. Tries 0/10 Calculate its increase in volume. Tries 0/10
A certain laser is made of a glass rod 30 cm long and 1.5 cm in diameter. If the temperature of the rod increases by 65 °C, what is the increase in: A. The length of the rod? μm B. The volume of the rod? m3
A copper tube with an inner diameter of 7.46 cm at room temperature (20'C) is to be tension fitted with a glass marble of diameter 7.47 cm. To which temperature must the 100.00-cm long copper tube be heated to be able to accommodate the marble? The linear expansion coeficient of copper is 17x 10() , for glass you can assume the expansion coefficient to be zero.(4) 1. -1 2. Initially, the tube is open at both ends. When you blow...
A steel rod is 3.418 cm in diameter at 26.00°C. A brass ring has an interior diameter of 3.410 cm at 26.00°C. At what common temperature will the ring just slide onto the rod? The linear expansion coefficient of steel is 11.00 × 10-6 1/C°. The linear expansion coefficient of brass is 19.00 × 10-6 1/C°.
A steel rod is 2.855 cm in diameter at 20.00°C. A brass ring has an interior diameter of 2.852 cm at 20.00°C. At what common temperature will the ring just slide onto the rod? The linear expansion coefficient of steel is 11.00 × 10-6 1/C°. The linear expansion coefficient of brass is 19.00 × 10-6 1/C°.
A steel rod is 3.311 cm in diameter at 27.00°C. A brass ring has an interior diameter of 3.307 cm at 27.00°C. At what common temperature will the ring just slide onto the rod? The linear expansion coefficient of steel is 11.00 × 10-6 1/C°. The linear expansion coefficient of brass is 19.00 × 10-6 1/C°.
Please show all steps even something minor like conversions. Q1 A 25.0 cm glass rod initially at a temperature of 0 °C is placed in hot water where it expands in length by 0.131 mm. Glass has a coefficient of linear thermal expansion of 9.0 x 10-6K-. What is the temperature of the water (in °C)?
(a) of the diameter of a copper sphere is 2.540 cm at 20.00'C, what will its diameter be at a temperature of 108.0"C? The coefficient of linear expansion of copper is 17 x 10-rc. (Give your answer to at least three decimal places) 2.540 X Consider linear expansion along the radial directionem (6) For the volume of the sphere to increase by 1.120, to what temperature should the sphere be heated The content of volume expansion is 3 times that...