Client advocacy in the behavioral health field aims to support and empower individuals as they navigate their mental health journey. Two techniques to increase client empowerment are psychoeducation and a strengths-based approach.
1. Psychoeducation: Providing clients with relevant information about their mental health conditions, treatment options, and coping strategies helps empower them to make informed decisions about their care. By understanding the nature of their challenges, clients can better recognize triggers, develop effective coping mechanisms, and take an active role in their recovery process.
2. Strengths-based approach: This method focuses on identifying and nurturing clients' strengths and abilities, rather than solely addressing their weaknesses and limitations. By emphasizing their existing skills and resources, clients can develop confidence in their ability to overcome challenges and build resilience. This approach promotes a sense of empowerment, as clients recognize their potential for growth and positive change.
To know more about psychoeducation
#SPJ11
B) pressure points.
C) direct pressure.
D) elevation.
Answer: C). direct pressure
Explanation:
The application of direct pressure is the correct approach to prevent the flow of blood from small or large wounds. This can be done by using a dressing like a guaze pad. This step can stop the flow of blood although multiple covering of dressing over the wound may be required.
The complete question is :
The antidepressant fluoxetine (or Prozac) has a half-life of about 3 days. What
percentage of a dose remains in the body after one day
Answer: 79.4 per cent.
Explanation:
Half life of a substance can be defined as the amount of time taken to degrade it half or it can be defined as the time which is required by the substance to become half of its original amount.
Here we need to find the half life of a medicine fluoxetine.
The equation which can be written for the question is :P(t) which will provide the information about the amount of medicine left in the body after one day or time (t)
Since the half-life is 3 days, P(t) = 2−t/3.
Then P(1) = 2−1/3 ≈ 0.794 = 0.794*100=79.4% is the amount of substance left in the body after one day.
Answer: B. The law says you must write a new living will each time you re admitted to the hospital.
Explanation:
The law does not require that you make a new will whenever you are admitted to the hospital. Any existing will that has fulfilled the provisions of the law are biding unless the person decides to change the will of their own volition.
There is therefore no need to make a new will every time if there is already one in existence and the person is satisfied with it. The Registered Nurse should therefore correct this statement by the Licensed Practical Nurse.
b. psoas major
c. tenor fasciae latae
d. gracilis
Answer:
a. satorius
Explanation:
The sartorius muscle is a two-joint muscle that moves both the hip and knee joints. Although anatomically considered a thigh extensor, its contraction actually causes a flexion of the hip joint. This is due to its location in the anterior (extensor) compartment of the thigh. Additionally, it is involved in abduction and external rotation of the hip joint.
In the knee joint, it forces an internal flexion and rotation. Flexion movement is the result of tendon insertion into the knee joint behind the flexor-extensor axis. When all five movements are performed simultaneously the legs cross in meditation position. Thus, the muscle is most easily palpable in this position.
Where would you expect to find information about herbal supplements?
a. the Red Book
b. Drug Facts
c. Natural Medicine's Comprehensive Database
d. US Pharmacopeia Drug Information
Answer:
C. Natural Medicine's Comprehensive Database
Explanation:
I calculated it logically
The nurse needs to set the IV pump to provide 4 grams of magnesium sulfate over a 20-minute period to run the bolus.
Since the bolus comes diluted in 250 mL of normal saline, the nurse needs to calculate the rate at which the bolus will be delivered. To do this, the nurse needs to divide the amount of magnesium sulfate (4 grams) by the time it should take to deliver the bolus (20 minutes). This gives a rate of 0.2 grams per minute.
However, since IV pumps deliver in milliliters per hour, the nurse needs to convert this rate to mL/hr. To do this, the nurse multiplies 0.2 grams/minute by 60 minutes/hour, giving a rate of 12 mL/hour. Therefore, the nurse should set the IV pump to 12 mL/hour to provide the 4-gram magnesium sulfate bolus over 20 minutes.
know more about bolus here
brainly.com/question/31841219#
#SPJ11
The IV pump rate for a 4 gram bolus of magnesium sulfate to run over 20 minutes with a total volume of 250 mL should be set at 750 mL/hr.
To calculate the IV pump rate for a magnesium sulfate bolus of 4 grams to be administered over 20 minutes, we need to know the total volume of the IV fluid which is 250 mL.
Since the entire 250 mL should be administered in 20 minutes, we first convert minutes to hours because infusion pumps are calibrated in mL per hour. Thus, 20 minutes is ⅓ of an hour.
To find the infusion rate in mL/hour, we use the formula:
Therefore, the nurse should set the IV pump to run at a rate of 750 mL/hr to administer a 4 gram bolus of magnesium sulfate diluted in 250 mL of normal saline over 20 minutes.