The free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 4 s on the earth? 1 cm What length pendulum would have a 4 s period on Mars? 2 cm (b) A mass is suspended from a spring with force constant 10 N/m. Find the mass suspended from this spring that would result in a 4 s period on Earth and on Mars. Earth 3 kg Mars 4 kgThe free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 2.4-s on Earth? cm (b) What length pendulum would have a 2.4-s period on Mars? cm An object is suspendedThe free-fall acceleration on Mars is 3.7 m/s2 (a) what length pendulum has a period of 1.2-s on Earth? 348 x Use the relation between the length of a pendulum and its period. cm (b) What length pendulum would have a 1.2-s period on Mars? cm An object is suspended from a spring with force constant 10 N/m (C) Find the mass suspended from this spring that would result in a 1.2 s period on EarthThe free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 2 s on the earth? What length pendulum would have a 2 s period on Mars? (b) A mass is suspended from a spring with force constant 10 N/m. Find the mass suspended from this spring that would result in a 2 s period on Earth and on Mars.The free-fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period of 1 s on Earth? What length of pendulum would have a 1-s period on Mars? (b) An object is suspended from a spring with force constant 10 N/m. Find the mass...
The free-fall acceleration on Mars is 3.7 m/s2. (a) What
Answer to: The free-fall acceleration on Mars is 3.7 m/s^2. (a) What length pendulum has a period of 2.8 s on Earth? (b) What length pendulum would...The free-fall acceleration on Mars is 3.7 m/s2. ? (a) What length pendulum has a period of 1.2-s on Earth? (b) What length pendulum would have a 1.2-s period on Mars?The free-fall acceleration on Mars is 3.7 m/s 2. (a) What length pendulum has a period of 2.6-s on Earth? cm (b) What length pendulum would have a 2.6-s period on Mars? cm. An object is suspended from a spring with force constant 10 N/m. (c) Find the mass suspended from this spring that would result in a 2.6 s period on Earth. kgA robot probe drops a camera off the rim of a 245 m high cliff on Mars, where the free-fall acceleration is 3.7 m/s2. Find the velocity with which it hits the ground. Answer in units of m/s. 2)Find the time required for the camera to reach the ground. Answer in units of s. please show work
Solved: The Free-fall Acceleration On Mars Is 3.7 M/s2 (a
The free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 1.1-s on Earth? (b) What length pendulum would have a 1.1-s period on Mars? (c) An object is suspended from a spring with force constant 10 N/m. Find the mass suspended from this spring that would result in a 1.1 s period on Earth.A robot probe drops a camera off the rim of a 239 m high cliff on Mars, where the free-fall acceleration is -3.7 m/s^2. a) Find the velocity with which the camera hits the ground. b) Find the time required for it to hit the ground. Ok so I'm not even sure of which equation to use for this problem.The free-fall acceleration on Mars is 3.7 m/s 2 . (a) What length of pendulum has a period of 1.0 s on Earth? (b) What length of pendulum would have a 1.0-s period on Mars? An object is suspended from a spring with force constant 10.0 N/m. Find the mass suspended from this spring that would result in a period of 1.0 s (c) on Earth and (d) on Mars.The free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 1.2-s on Earth? cm (b) What length pendulum would have a 1.2-s period on Mars? cm An object is suspended from a spring with force constant 10 N/m. (c) Find the mass suspended from this spring that would result in a 1.2 s period on Earth. kg (d) Find the mass suspended from this spring that would result inThe free - fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period of 1.0 s on Earth? (b) What length of pendulum would have a 1.0- s period on Mars? An object is suspended from a spring with force constant 10.0 N/m. Find the mass suspended from this spring that would result in a period of 1.0 s (c) on Earth and (d) on Mars.
The free-fall acceleration on Mars is 3.7 m/s2.
(a) What period pendulum has a length of four s on the earth?
1 cm
What length pendulum would have a Four s length on Mars?
2 cm
(b) A mass is suspended from a spring with force constant 10 N/m. Find the mass suspended from this spring that might lead to a Four s length on Earth and on Mars. Earth 3 kg
Mars 4 kg
Free-Fall Practice Problems
Solved: The Free-fall Acceleration On Mars Is 3.7 M/s^2. W
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