Data Table 3: Time Trials to Drop an Object 2m Item Data Trial 1 Drop time,...

Projectile Physic lab Table 1: Trial 1 Trial 2 Trial 3 Average Time (s) 0.4179 0.4032...

Projectile Physic lab Table 1: Trial 1 Trial 2 Trial 3 Average Time (s) 0.4179 0.4032 0.4524 0.4245 Horizontal distance (m) 0.48 0.48 0.48 0.48 Vertical distance (m) 0.93 0.93 0.93 0.93 Table 2 : Trial 1 Trial 2 Trial 3 Average Time (s) 0.4915 0.4782 0.4473 0.4723 Horizontal distance (m) 0.40 0.37 0.35 0.37 Vertical distance (m) 0.93 0.93 0.93 0.93 1- Calculate the initial and final speed of the ball using Newton’s second law for both tables. 2-...

2. Choose the data from one of the objects from Table 1. The previous class measured...

2. Choose the data from one of the objects from Table 1. The previous class measured the time t it takes to roll the entire distance d down the ramp multiple times to decrease the random error. DATA: Object # =3 ramp angle =5 radius = 12.5 mass = 70.8 run times trial 1 2 3 4 5 6 7 8 9 10 2.21 2.37 2.14 2.23 2.11 2.3 2.13 2.31 2.03 2.11 4. Calculate the acceleration of object’s center...

Displacement (meters) Time (seconds) Trial 1 (0.70 m) 0.695 m 0.373 s 0.695 m 0.374 s...

Displacement (meters) Time (seconds) Trial 1 (0.70 m) 0.695 m 0.373 s 0.695 m 0.374 s 0.695 m 0.373 s 0.695 m 0.373 s Average Displacement = 0.6951 m Average Time = 0.3733 s Trial 2 (0.60 m) 0.598 m 0.345 s 0.595 m 0.345 s 0.595 m 0.345 s 0.598 m 0.346 s Average Displacement = 0.5960 m Average Time = 0.3453 s Trial 3 (0.50 m) 0.495 m 0.314 s 0.495 m 0.315 s 0.495 m 0.314 s...

Consider the data in table below which shows the time required to produce a particular item....

Consider the data in table below which shows the time required to produce a particular item. Using that data, calculate the labor hours for Unit 1 in the learing curve associated with this product. Units Labor Hrs 3 170 7 150 13 137 19 90 30 65

1. Complete Table 1. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage,...

1. Complete Table 1. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage, V Capacitance, C1 = Q/V 1 0.0265 0.1s 0.00265 3.14 0.000844 2 0.035 0.15s 0.00525 3.14 0.00167 3 0.015 0.15s 0.00225 3.14 0.000717 Average Capacitance 1.077e-3 Standard Deviation (2 points x 8 = 16 points) 2. Complete Table 2. Trial Average Current, i Charging Time, t Total Charge, Q=it Final Voltage, V Capacitance, C2 = Q/V 1 0.035 0.1 0.0035 3.14 0.00111 2 0.005...

Displacement (meters) Time (seconds) Trial 1 (0.70 m) 0.695 m 0.373 s 0.695 m 0.374 s...

Displacement (meters) Time (seconds) Trial 1 (0.70 m) 0.695 m 0.373 s 0.695 m 0.374 s 0.695 m 0.373 s 0.695 m 0.373 s Average Displacement = 0.6951 m Average Time = 0.3733 s Trial 2 (0.60 m) 0.598 m 0.345 s 0.595 m 0.345 s 0.595 m 0.345 s 0.598 m 0.346 s Average Displacement = 0.5960 m Average Time = 0.3453 s Trial 3 (0.50 m) 0.495 m 0.314 s 0.495 m 0.315 s 0.495 m 0.314 s...

1. Can someone just double check my results? For table 1 I needed to find the...

1. Can someone just double check my results? For table 1 I needed to find the velocity for each trial. 2. For table 2 I was asked to find horizontal velocity. 3. For table 3 I was asked to find the average time, range, and compute velocity. Table 1: Timing Data of Ball on Table Distance between tape strips =  10 inches   in meters = 0.254 m Trial 1 Trial 2 Trial 3 Trial 4 Trial 5 Time (s) .32s .35s .50s...

USE MY TABLE TO ANSWER ALL QUESTIONS Trial Barometric Pressure (atm) Temperature (°C) Mass of Chemical...

USE MY TABLE TO ANSWER ALL QUESTIONS Trial Barometric Pressure (atm) Temperature (°C) Mass of Chemical (g) Water Displaced (mL) Trial 1 NaHCO3 1.006973 20C 1.0g .057L Trial 2 NaHCO3 1.006973 20C 1.0g .085L Trial 3 Na2CO3 1.006973 21C 1.0g .042L Trial 4 Na2CO3 1.006973 20C 1.1g .036L PART A Show your calculation for the molar volume of CO2 from Trial 1 according to your experimental data. Show all work, values, and units in your calculations in order to receive...

1. Consider the following time series data. t 1 2 3 4 5 Yt 6 11...

1. Consider the following time series data. t 1 2 3 4 5 Yt 6 11 9 14 15 a. Develop the linear trend equation for this time series (to 1 decimal). Tt = (___) + (___) t b. What is the forecast for t=6 (to 1 decimal)? (___) 2. Consider the following time series data. t 1 2 3 4 5 Yt 7 11 9 14 16 a. Develop the linear trend equation for this time series (to 1...

Procedure 1. Go to PhET webaddress and run Springs and Masses. 2. Construct a data table...

Procedure 1. Go to PhET webaddress and run Springs and Masses. 2. Construct a data table in lab book. You will need to record the mass that you hang from the spring and the change in position of the end of the spring before and after the mass is added. 3. From this, you will calculate the force applied to the spring. You will do three trials using Spring #3, set to the default setting for stiffness of the spring....