Homework Answers
There are so many values of the hanging mass in the observation table, so we will use any one, m = 0.011 kg
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only do questions 1-3 please
rt I: Measured Acceleration Mass of the cart: Mcart d scale...
Please I need help! Problem #2: Assume you measured the mass of the cart to be...
Please I need help!
Problem #2: Assume you measured the mass of the cart to be (500 ±1 )g and the mass of the additional mass you put on the cart tobe 500 1) gas well. Since the scale you are using in the lab can not measure objects heavier than 600g you will have to sum up individual pieces and propagate the error. So what would be the mass and the standard deviation of the cart and the mass?...
Need help with questions 1-3 please The cart now moves toward the left with an acceleration...
Need help with questions 1-3 please
The cart now moves toward the left with an acceleration toward the lkeft of 2.50 m/ft^3. What does spring scale F_ read? Show your calculations and explain. Ben is of the bull moose is use the large mass of the moose to his own motion extremely intimidating. Yet, if Ben makes a zigzag pattern through the woods, he will be able to s advantage. Explain this in terms of inertia and Newton's first law...
I need help for part 2 please 1) A pendulum bob of mass m is attached...
I need help for part 2 please
1) A pendulum bob of mass m is attached to an ideal string of length L. The other end of the string is attached to a rigid hook. The bob is lifted along a circular are of radius L until it and the string makes an angle with the vertical, as shown. The bob is then released from rest. a) Prediction: If the magnitude of the tension in the string is measured to...
These are the answers: I need help answering the following questions about the data please: II:...
These are the answers:
I need help answering the following questions about the
data please:
II: OBSERVATIONAL EXPERIMENT: ACCELERATION IN CIRCULAR MOTION Rubrics you should use for The goal of this experiment is to identify patterns in factors which affect the acceleration of an object moving in a circle at constant speed. guidance: Available equipment: Computer with LoggerPro installed A9, B5, B8, G5 a) An experiment was conducted in which a dynamics cart of mass 1kg was connected to a...
3. For experiment A, use equations 1&3 to develop a general equation for the value of...
3. For experiment A, use equations 1&3 to develop a general equation for the value of tension (T) based on the values of the two masses. You will need this later to answer lab question (4), so write it in now. 4. Based on the "net force" and "total mass" approach that was used to derive equations 3,4, and 5; develop the equation for acceleration of two masses (m, and m2) hanging vertically from either side of a frictionless pulley....
Data Trial 1 Trial 2 Trial 3 Distance travelled by mass, S (m) [Same for each trial) 05 m 0.5 m 0...
Data Trial 1 Trial 2 Trial 3 Distance travelled by mass, S (m) [Same for each trial) 05 m 0.5 m 0.5 m Total mass moved (M+m) (KG) 03284 .?'to. same in all trials Hanging mass (m) [different in each trial] Time between gates, t (sec) 14 It% |t2-O-68 t3 #0.99 d Experimental Acceleration, dexp (m/s) (use: S vot t ^at2) 4 165 mls try to make vo Theoretical Acceleration, athe (m/s2) (use: aINM+m Difference (%) mg 15.3 Task 1:...
I need help on everything. Measured Force Constant, k (N/m): 5.29 (20 points) Mass, m (kg)_0.100...
I need help on everything.
Measured Force Constant, k (N/m): 5.29 (20 points) Mass, m (kg)_0.100 kg tittettststtst Time (s) 208 2.94 3.844.12 5.60 6.48 1.36 8.249.14 Period (s) .86.9 -88 -88.88.88.88.9 Calculate the experimental values for the period of oscillation between each consecutive time value, then use those values to calculate the experimental average period value. (10 points) Average Period, Tavg (s): -88 Physical Quantity Crest (m) Trough (m) Amplitude (m) Position Wave 501 .348 0.79 Velocity Wave I-0.57...
I need help for numbers 1 and 3. For number one I measured the height of...
I need help for numbers 1 and 3. For number one I
measured the height of the track at angle. One of the heights was
.082m. hypotenuse 1.013m. I did sin^-1(.082/1.013) and got 4.64
degrees. I used a sensor and aquired data for change in v and t as
a glider fell down the track. I calculated the acceleration at that
height and angle as -10.18 m/s^2. final V was 1.48, initial V .687.
final t=.0675, initial t= .1454.
For...
please write clearly and and label ever answer All of the questions on this exam concern a space station, consisting of a long thin uniform rod of mass B. 니 x 106 kg and length C. D 3 meters, w...
please write clearly and and label ever answer
All of the questions on this exam concern a space station, consisting of a long thin uniform rod of mass B. 니 x 106 kg and length C. D 3 meters, with two identical uniform hollow spheres, each of mass D. 2+2 x 10kg and radius Emeters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown is drawn to scale! axis (a) Suppose that...
Need help with conclusion questions please I. The objectives of this lab are (1) to determine...
Need help with conclusion questions please
I. The objectives of this lab are (1) to determine initial mechanical energy of a charge (2) to determine final mechanical energy of a charge (3) to prove the law of conservation of energy for the electric charge II. Apparatus(Equipment): Voltage source, measuring tape, smart timer. II. Procedure: A charged body having charge Q = 0.002 C, mass M= 0.004 Kg, was initially held at rest at a voltage line located at height=H=D= 2m....
Please I need help!
Problem #2: Assume you measured the mass of the cart to be (500 ±1 )g and the mass of the additional mass you put on the cart tobe 500 1) gas well. Since the scale you are using in the lab can not measure objects heavier than 600g you will have to sum up individual pieces and propagate the error. So what would be the mass and the standard deviation of the cart and the mass?...
Need help with questions 1-3 please
The cart now moves toward the left with an acceleration toward the lkeft of 2.50 m/ft^3. What does spring scale F_ read? Show your calculations and explain. Ben is of the bull moose is use the large mass of the moose to his own motion extremely intimidating. Yet, if Ben makes a zigzag pattern through the woods, he will be able to s advantage. Explain this in terms of inertia and Newton's first law...
I need help for part 2 please
1) A pendulum bob of mass m is attached to an ideal string of length L. The other end of the string is attached to a rigid hook. The bob is lifted along a circular are of radius L until it and the string makes an angle with the vertical, as shown. The bob is then released from rest. a) Prediction: If the magnitude of the tension in the string is measured to...
These are the answers:
I need help answering the following questions about the
data please:
II: OBSERVATIONAL EXPERIMENT: ACCELERATION IN CIRCULAR MOTION Rubrics you should use for The goal of this experiment is to identify patterns in factors which affect the acceleration of an object moving in a circle at constant speed. guidance: Available equipment: Computer with LoggerPro installed A9, B5, B8, G5 a) An experiment was conducted in which a dynamics cart of mass 1kg was connected to a...
3. For experiment A, use equations 1&3 to develop a general equation for the value of tension (T) based on the values of the two masses. You will need this later to answer lab question (4), so write it in now. 4. Based on the "net force" and "total mass" approach that was used to derive equations 3,4, and 5; develop the equation for acceleration of two masses (m, and m2) hanging vertically from either side of a frictionless pulley....
Data Trial 1 Trial 2 Trial 3 Distance travelled by mass, S (m) [Same for each trial) 05 m 0.5 m 0.5 m Total mass moved (M+m) (KG) 03284 .?'to. same in all trials Hanging mass (m) [different in each trial] Time between gates, t (sec) 14 It% |t2-O-68 t3 #0.99 d Experimental Acceleration, dexp (m/s) (use: S vot t ^at2) 4 165 mls try to make vo Theoretical Acceleration, athe (m/s2) (use: aINM+m Difference (%) mg 15.3 Task 1:...
I need help on everything.
Measured Force Constant, k (N/m): 5.29 (20 points) Mass, m (kg)_0.100 kg tittettststtst Time (s) 208 2.94 3.844.12 5.60 6.48 1.36 8.249.14 Period (s) .86.9 -88 -88.88.88.88.9 Calculate the experimental values for the period of oscillation between each consecutive time value, then use those values to calculate the experimental average period value. (10 points) Average Period, Tavg (s): -88 Physical Quantity Crest (m) Trough (m) Amplitude (m) Position Wave 501 .348 0.79 Velocity Wave I-0.57...
I need help for numbers 1 and 3. For number one I
measured the height of the track at angle. One of the heights was
.082m. hypotenuse 1.013m. I did sin^-1(.082/1.013) and got 4.64
degrees. I used a sensor and aquired data for change in v and t as
a glider fell down the track. I calculated the acceleration at that
height and angle as -10.18 m/s^2. final V was 1.48, initial V .687.
final t=.0675, initial t= .1454.
For...
please write clearly and and label ever answer
All of the questions on this exam concern a space station, consisting of a long thin uniform rod of mass B. 니 x 106 kg and length C. D 3 meters, with two identical uniform hollow spheres, each of mass D. 2+2 x 10kg and radius Emeters, attached at the ends of the rod, as shown below. Note that none of the diagrams shown is drawn to scale! axis (a) Suppose that...
Need help with conclusion questions please
I. The objectives of this lab are (1) to determine initial mechanical energy of a charge (2) to determine final mechanical energy of a charge (3) to prove the law of conservation of energy for the electric charge II. Apparatus(Equipment): Voltage source, measuring tape, smart timer. II. Procedure: A charged body having charge Q = 0.002 C, mass M= 0.004 Kg, was initially held at rest at a voltage line located at height=H=D= 2m....
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