fixed grammers

Author: rajarshitiwari

material/cards_3.json

@@ -1,23 +1,23 @@
 [
     {
-        "front": "Discuss the idea of reversibility in Classical and Quantum Gates",
-        "back": "Classical gates can in general be irreversible whereas Quantum Gates are always reversible"
+        "front": "Discuss the idea of reversibility in classical and quantum gates",
+        "back": "Classical gates can in general be irreversible whereas quantum gates are always reversible."
 
     },
     {
-        "front": "Discuss the differences in the features of Classical and Quantum Computing",
-        "back": "Differences : No irreversible gates in Quantum Computing while classical gates can be reversible, Copying of states is not possible with Qubits but it's possible to copy bits in Classical Computing, Quantum bits exhibit Superposition/ Entanglement which are not exhibited by Classical Bits, Quantum Measurements are probabilstic whereas Classical results are deterministic"            
+        "front": "Discuss the differences in the features of classical and quantum computing",
+        "back": "Differences : No irreversible gates in quantum computing while classical gates can be reversible, copying of states is not possible with qubits but it's possible to copy bits in classical computing, quantum bits exhibit superposition/entanglement which are not exhibited by classical bits, quantum measurements are probabilstic whereas classical results are deterministic."
 
     },
     {
-        "front": "Discuss the similarities in the features of Classical and Quantum Computing",
-        "back": " Similarities : Both have Universal gatesets, Both require the existence of independent states like the 0 and 1 state, Gates are used to manipulate the information in both cases."
+        "front": "Discuss the similarities in the features of classical and quantum computing",
+        "back": " Similarities : Both have universal gatesets, and require the existence of independent states like the 0 and 1 state. Gates are used to manipulate the information in both cases."
 
 
     },
     {
-        "front": "What are the implications of No Cloning theorem on Practical Quantum Computing",
-        "back": "Can't copy qubits which makes the challenge of errors and noise even more significant"
+        "front": "What are the implications of `no-cloning theorem` on practical quantum computing",
+        "back": "Unlike classical bits, one can not copy qubits. This makes the tackling of errors and noise even more challenging."
 
     }
 ]

material/cards_4.json

@@ -1,23 +1,23 @@
 [
     {
-        "front": "Discuss the types and sources of noise in a Quantum system",
-        "back": "There are two types of Quantum noise, coherent and Incoherent noise and in general Quantum Noise can originate out of three interactions. Interactions between Qubit and the enivronment, interactions between the Gate and the Qubit and interactions between qubits themselves."
+        "front": "Discuss the types and sources of noise in a quantum system",
+        "back": "There are two types of quantum noise, coherent and incoherent noise and in general quantum noise can originate out of three interactions. Interactions between qubit and the environment, interactions between the gate and the qubit and interactions between qubits themselves."
 
     },
     {
-        "front": "Discuss how Hardware based error Correction schemes operate",
-        "back": "They work by introducing redundancy in the system, the information of one qubit is encoded within multiple qubits so that even if Noise effects  some of the qubits the information can be retained from the rest"            
+        "front": "Discuss how hardware based error correction schemes operate",
+        "back": "They work by introducing redundancy in the system, the information of one qubit is encoded within multiple qubits so that even if noise effects some of the qubits the information can be recovered from the rest."
 
     },
     {
-        "front": "Discuss Software-based Error mitigation schemes",
-        "back": " Use mathematical regression and other analytical methods to remove the effects of noise from the systems in the Classical post-processing step. "
+        "front": "Discuss software-based error mitigation schemes",
+        "back": " Use mathematical regression and other analytical methods to remove the effects of noise from the systems in the classical post-processing step. "
 
 
     },
     {
-        "front": "Discussion on temperature control and it's effects on Qubit performance",
-        "back": "The fidelity and coherence times of the qubit are greater at lower temperatures and that is why it's important to work on Optimal temperature control for these qubits."
+        "front": "Discussion on temperature control and it's effects on qubit performance",
+        "back": "The fidelity and coherence times of the qubit are greater at lower temperatures and that is why it's important to work on optimal temperature control for these qubits."
 
     }
 ]