A pitcher is in 85° of abduction, holding a 1.4 N baseball at point C, 65 cm from the joint axis at point O • The center of gravity of his arm is 25 cm from the joint axis of shoulder abduction at point O • The weight of the arm W is 0.06 of the pitcher’s weight of 100 N • Deltoids muscles are at an angle θ of 15° with respect to the humerus and insert 15 cm from the joint axis at point A • Determine the force applied by the Deltoid muscles and the joint reaction force at the shoulder joint and its orientation β
Answers
I attached a Diagram for this problem.
We star considering the system is in equlibrium, so
Fm makes with vertical
Fm makes 70 with vertical
Applying summatory in X we have,
We know that W is equal to
Substituting,
For the second part we know that the reaction force Fj on deltoid Muscle is equal to Fm, We can assume also that
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The mass of a string is 20 g and it has a length of 3.2 m. Assuming that the tension in the string is 2.5 N, what will be the wavelength of a travelling wave that is created by a sinusoidal excitation of this string with a frequency of 20 Hz. Provide the wavelength in units of m. Please note: You do not include the units in your answer. Just write in the number.
A sound wave travels with a velocity of 330 m/s and has a frequency of 500 Hz. What is itswavelength?
In an experiment to measure the acceleration of g due to gravity, two values, 9.96m/s (s is squared) and 9.72m/s (s is squared), are determined. Find (1) the percent difference of the measurements, (2) the percent error of each measurement, and (3) the percent error of their mean. (Accepted value:g=9.80m/s (s is squared))
Answers
Answer: true
Explanation: a force can be anything that effects an object, as long as the object moves
Explanation:Because anything that is being pushed of pulled is called force.
HOPE IT HELPED :)
Answers
Answer:
V = 1.69 * 10^6 V
Explanation:
Parameters given:
Electric field, E = 59V/m
Charge, q = 5.40C
We need to first find the distance between the electric charge and the point of consideration to be able to find the Electric potential difference.
Electric field is given as:
E = (kq/r^2)
k = Coulombs constant
=> r^2 = kq/E
=> r^2 = (9 * 10^9 * 5.4) / 59
r^2 = 8.2 * 10^8
r = 2.84 * 10^4 m
We can now find the Electric Potential by using:
V = kq/r
Hence,
V = (9 * 10^9 * 5.4) / (2.84 * 10^4)
V = 1.69 * 10^6 V
Answers
Answer:
The gel that is applied before ultrasonic imaging is a conducting material. It acts as a medium between transducer and skin. The ultrasonic waves easily transmit from the probe to the tissues because of gel. A tight bond is created between the probe and skin layer and the gel acts as a coupling agent. The density of the gel is similar to the skin layer. This reduces the attenuation of the waves. A thin layer of gel is applied which fills the air gaps and helps in transmission of waves to the tissues. Hence, the technician apply ultrasound gel to the patient before beginning the examination
The gel has a density similar to that of skin, so very little of the incident ultrasonic wave is lost by reflection.
B. Oceanic crust is made out of much less dense material than continental crust
C. Continental crust is continually renewed through convection in the earth's mantle
D. Continental crust eats oceanic crust for breakfast
Answers
Answer:
A. Oceanic crust is continually recycled through convection in the earth's mantle
Explanation:
The oceanic plate is constantly being recycled through the forces of convection within the earth's mantle.
New oceanic plate are formed mid-oceanic ridge for example. As the magma cools and solidifies, they are moved away continually.
This is not the case for the continental curst.
Answers
Answer:
a) TB = m2 * w^2 * 2*d
b) TA = m1 * w^2 * d + m2 * w^2 * 2*d
Explanation:
The tension on the strings will be equal to the centripetal force acting on the boxes.
The centripetal force is related to the centripetal acceleration:
f = m * a
The centripetal acceleration is related to the radius of rotation and the tangential speed:
a = v^2 / d
f = m * v^2 / d
The tangential speed is:
v = w * d
Then
f = m * w^2 * d
For the string connecting boxes 1 and 2:
TB = m2 * w^2 * 2*d
For the string connecting box 1 to the shaft
TA = m1 * w^2 * d + m2 * w^2 * 2*d
Answers
Answer:
The velocity at discharge is 100.46 ft/s
Explanation:
Given that,
Pressure = 68 psi
We need to calculate the pressure in pascal
We need to calculate the velocity
Let the velocity is v.
Using Bernoulli equation
Now, We will convert m/s to ft/s
Hence, The velocity at discharge is 100.46 ft/s
Final answer:
The speed of water discharged from a hose depends on the nozzle pressure and the constriction of the flow, but the specific speed cannot be determined from pressure alone without additional parameters.
Explanation:
The question is asking about the velocity or speed achieved by water when it is forced out of a hose with a nozzle pressure of 68 psi. To understand this, we need to know that the pressure within the hose is directly correlated with the speed of the water's exit. This is due to the constriction of the water flow by the nozzle, causing speed to increase.
However, the specific velocity at discharge can't be straightforwardly calculated from pressure alone without knowing more details, such as the dimensions of the hose and nozzle, and the properties of the fluid. Therefore, based on the provided information, a specific answer in ft/sec can't be given.
Learn more about Pressure and Velocity here:
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