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You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the...
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You...
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 193 N/m and use a ball of mass 1.26 kg. What is the frequency (in Hz)? Enter answer here 19.4 Hz Your Answer
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You...
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 193 N/m and use a ball of mass 1.26 kg. What is the frequency (in Hz)? Enter answer here 19.4 Hz Your Answer
Can someone please help with these? You want to predict the frequency with which a ball-on-spring...
Can someone please help with these?
You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 156 N/m and use a ball of mass 1.13 kg. What is the frequency (in Hz)? Enter answer here Hz 0 of 4 attempts used CHECK ANSWER Fish are hung on a spring scale to determine their mass (most fishermen feel no obligation to truthfully report the mass). What is the mass of a...
A system made up of a mass (m) attached to a spring (k) will oscillate to...
A system made up of a mass (m) attached to a spring
(k) will oscillate to a specific amplitude (a) depending on an
external force (f) and initial conditions. If all the variables
involved are given in the table, formulate the necessary Pi groups
to describe this behavior.
Parameter Variable Units Amplitude A m MAS kg Spring A constant N/m External Force F N Frequency rads
A block of mass 125 g is attached to a spring. When pulled away from equilibrium...
A block of mass 125 g is attached to a spring. When pulled away from equilibrium it oscillates with a frequency of 4.167 Hz. (a) What is the value of the spring constant for this spring? 85.68 N/m Correct: Your answer is correct. (b) You have a second block with a mass of 225 g. You want to attach it to a second spring so that it oscillates with the same frequency as the first block. What spring constant should...
The end of a diving board can oscillate with a frequency of 2.9 Hz. Assume it...
The end of a diving board can oscillate with a frequency of 2.9 Hz. Assume it behaves like a simple harmonic oscillator in what follows. Before we deal with the diving board, first consider you have a mass, ?m, on a spring with spring constant, ?, oscillating with a certain frequency, ? and amplitude, ?. Derive an equation for ... a) the magnitude of the maximum speed of the oscillator in terms of the frequency, ? and the amplitude of...
A ballistic spring system can be used to measure the speed of bullets. A bullet of...
A ballistic spring system can be used to measure the speed of bullets. A bullet of mass 0.005 kg is fired into a block of mass 2 kg. The block, with the embedded bullet, then slides across a frictionless table and collides with a horizontal spring whose spring constant is 50 N m . The opposite end of the spring is anchored to a wall. The spring’s maximum compression is measured to be 0.1 m. Calculate the initial speed of...
You have been asked to design a "ballistic spring system" to measure the speed of bullets....
You have been asked to design a "ballistic spring system" to measure the speed of bullets. A spring whose spring constant is k is suspended from the ceiling. A block of mass M hangs from the spring. A bullet of mass m is fired vertically upward into the bottom of the block. The spring's maximum compression d is measured. What was the speed of a 10 g bullet if the block's mass is 2.1 kg and if the spring, with...
4. Using the mks units (meters-kilograms-seconds), suppose you have a spring with spring constant 4 N/m....
4. Using the mks units (meters-kilograms-seconds), suppose you have a spring with spring constant 4 N/m. You want to use it to weigh items. Assume no friction. You place the mass on the spring and put it in motion. a) You count and find that the frequency is 0.8 Hz (cycles per second). What is the mass? b) Find a formula for the mass m given the frequency ω in Hz.
Problem 3-Under the ambient condiion, one can use the oscillation frequency of a spring-mass system to...
Problem 3-Under the ambient condiion, one can use the oscillation frequency of a spring-mass system to determine the mass suspended at the end of a spring using equation where f if the frequency of oscillation in the unit of s1, k is the spring constant in the unit of N/m, and m is the mass of the oscillating object in the unit of kg. The spring constant k is obtained by suspending an object of known mass mo under the...
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 193 N/m and use a ball of mass 1.26 kg. What is the frequency (in Hz)? Enter answer here 19.4 Hz Your Answer
Question 1 You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 193 N/m and use a ball of mass 1.26 kg. What is the frequency (in Hz)? Enter answer here 19.4 Hz Your Answer
Can someone please help with these?
You want to predict the frequency with which a ball-on-spring system will oscillate. You measure the spring constant to be 156 N/m and use a ball of mass 1.13 kg. What is the frequency (in Hz)? Enter answer here Hz 0 of 4 attempts used CHECK ANSWER Fish are hung on a spring scale to determine their mass (most fishermen feel no obligation to truthfully report the mass). What is the mass of a...
A system made up of a mass (m) attached to a spring
(k) will oscillate to a specific amplitude (a) depending on an
external force (f) and initial conditions. If all the variables
involved are given in the table, formulate the necessary Pi groups
to describe this behavior.
Parameter Variable Units Amplitude A m MAS kg Spring A constant N/m External Force F N Frequency rads
Problem 3-Under the ambient condiion, one can use the oscillation frequency of a spring-mass system to determine the mass suspended at the end of a spring using equation where f if the frequency of oscillation in the unit of s1, k is the spring constant in the unit of N/m, and m is the mass of the oscillating object in the unit of kg. The spring constant k is obtained by suspending an object of known mass mo under the...
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